168d6d8abSJakob Stoklund Olesen //===- CodeGenRegisters.cpp - Register and RegisterClass Info -------------===// 268d6d8abSJakob Stoklund Olesen // 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 668d6d8abSJakob Stoklund Olesen // 768d6d8abSJakob Stoklund Olesen //===----------------------------------------------------------------------===// 868d6d8abSJakob Stoklund Olesen // 968d6d8abSJakob Stoklund Olesen // This file defines structures to encapsulate information gleaned from the 1068d6d8abSJakob Stoklund Olesen // target register and register class definitions. 1168d6d8abSJakob Stoklund Olesen // 1268d6d8abSJakob Stoklund Olesen //===----------------------------------------------------------------------===// 1368d6d8abSJakob Stoklund Olesen 1468d6d8abSJakob Stoklund Olesen #include "CodeGenRegisters.h" 15a3fe70d2SEugene Zelenko #include "llvm/ADT/ArrayRef.h" 16a3fe70d2SEugene Zelenko #include "llvm/ADT/BitVector.h" 17a3fe70d2SEugene Zelenko #include "llvm/ADT/DenseMap.h" 181d7a2c57SAndrew Trick #include "llvm/ADT/IntEqClasses.h" 19fbbc41f8Sserge-sans-paille #include "llvm/ADT/STLExtras.h" 20a3fe70d2SEugene Zelenko #include "llvm/ADT/SetVector.h" 21a3fe70d2SEugene Zelenko #include "llvm/ADT/SmallPtrSet.h" 22a26a848dSKrzysztof Parzyszek #include "llvm/ADT/SmallSet.h" 2391d19d8eSChandler Carruth #include "llvm/ADT/SmallVector.h" 24a3fe70d2SEugene Zelenko #include "llvm/ADT/StringRef.h" 259a7f4b76SJim Grosbach #include "llvm/ADT/Twine.h" 26301dd8d7SAndrew Trick #include "llvm/Support/Debug.h" 27a3fe70d2SEugene Zelenko #include "llvm/Support/raw_ostream.h" 2891d19d8eSChandler Carruth #include "llvm/TableGen/Error.h" 29a3fe70d2SEugene Zelenko #include "llvm/TableGen/Record.h" 30a3fe70d2SEugene Zelenko #include <algorithm> 31a3fe70d2SEugene Zelenko #include <cassert> 32a3fe70d2SEugene Zelenko #include <cstdint> 33a3fe70d2SEugene Zelenko #include <iterator> 34a3fe70d2SEugene Zelenko #include <map> 35afcff2d0SMatthias Braun #include <queue> 36a3fe70d2SEugene Zelenko #include <set> 37a3fe70d2SEugene Zelenko #include <string> 38a3fe70d2SEugene Zelenko #include <tuple> 39a3fe70d2SEugene Zelenko #include <utility> 40a3fe70d2SEugene Zelenko #include <vector> 4168d6d8abSJakob Stoklund Olesen 4268d6d8abSJakob Stoklund Olesen using namespace llvm; 4368d6d8abSJakob Stoklund Olesen 4497acce29SChandler Carruth #define DEBUG_TYPE "regalloc-emitter" 4597acce29SChandler Carruth 4668d6d8abSJakob Stoklund Olesen //===----------------------------------------------------------------------===// 47f1bb1519SJakob Stoklund Olesen // CodeGenSubRegIndex 48f1bb1519SJakob Stoklund Olesen //===----------------------------------------------------------------------===// 49f1bb1519SJakob Stoklund Olesen 50f1bb1519SJakob Stoklund Olesen CodeGenSubRegIndex::CodeGenSubRegIndex(Record *R, unsigned Enum) 51eb0c510eSKrzysztof Parzyszek : TheDef(R), EnumValue(Enum), AllSuperRegsCovered(true), Artificial(true) { 52adcd0268SBenjamin Kramer Name = std::string(R->getName()); 5370a0bbcaSJakob Stoklund Olesen if (R->getValue("Namespace")) 54adcd0268SBenjamin Kramer Namespace = std::string(R->getValueAsString("Namespace")); 55f1ed334dSAhmed Bougacha Size = R->getValueAsInt("Size"); 56f1ed334dSAhmed Bougacha Offset = R->getValueAsInt("Offset"); 57f1bb1519SJakob Stoklund Olesen } 58f1bb1519SJakob Stoklund Olesen 5970a0bbcaSJakob Stoklund Olesen CodeGenSubRegIndex::CodeGenSubRegIndex(StringRef N, StringRef Nspace, 6070a0bbcaSJakob Stoklund Olesen unsigned Enum) 61adcd0268SBenjamin Kramer : TheDef(nullptr), Name(std::string(N)), Namespace(std::string(Nspace)), 62adcd0268SBenjamin Kramer Size(-1), Offset(-1), EnumValue(Enum), AllSuperRegsCovered(true), 63adcd0268SBenjamin Kramer Artificial(true) {} 64f1bb1519SJakob Stoklund Olesen 65f1bb1519SJakob Stoklund Olesen std::string CodeGenSubRegIndex::getQualifiedName() const { 66f1bb1519SJakob Stoklund Olesen std::string N = getNamespace(); 67f1bb1519SJakob Stoklund Olesen if (!N.empty()) 68f1bb1519SJakob Stoklund Olesen N += "::"; 69f1bb1519SJakob Stoklund Olesen N += getName(); 70f1bb1519SJakob Stoklund Olesen return N; 71f1bb1519SJakob Stoklund Olesen } 72f1bb1519SJakob Stoklund Olesen 7321231609SJakob Stoklund Olesen void CodeGenSubRegIndex::updateComponents(CodeGenRegBank &RegBank) { 7470a0bbcaSJakob Stoklund Olesen if (!TheDef) 7570a0bbcaSJakob Stoklund Olesen return; 763697143aSJakob Stoklund Olesen 7721231609SJakob Stoklund Olesen std::vector<Record*> Comps = TheDef->getValueAsListOfDefs("ComposedOf"); 783697143aSJakob Stoklund Olesen if (!Comps.empty()) { 7921231609SJakob Stoklund Olesen if (Comps.size() != 2) 80635debe8SJoerg Sonnenberger PrintFatalError(TheDef->getLoc(), 81635debe8SJoerg Sonnenberger "ComposedOf must have exactly two entries"); 8221231609SJakob Stoklund Olesen CodeGenSubRegIndex *A = RegBank.getSubRegIdx(Comps[0]); 8321231609SJakob Stoklund Olesen CodeGenSubRegIndex *B = RegBank.getSubRegIdx(Comps[1]); 8421231609SJakob Stoklund Olesen CodeGenSubRegIndex *X = A->addComposite(B, this); 8521231609SJakob Stoklund Olesen if (X) 86635debe8SJoerg Sonnenberger PrintFatalError(TheDef->getLoc(), "Ambiguous ComposedOf entries"); 8721231609SJakob Stoklund Olesen } 8821231609SJakob Stoklund Olesen 893697143aSJakob Stoklund Olesen std::vector<Record*> Parts = 903697143aSJakob Stoklund Olesen TheDef->getValueAsListOfDefs("CoveringSubRegIndices"); 913697143aSJakob Stoklund Olesen if (!Parts.empty()) { 923697143aSJakob Stoklund Olesen if (Parts.size() < 2) 93635debe8SJoerg Sonnenberger PrintFatalError(TheDef->getLoc(), 943697143aSJakob Stoklund Olesen "CoveredBySubRegs must have two or more entries"); 953697143aSJakob Stoklund Olesen SmallVector<CodeGenSubRegIndex*, 8> IdxParts; 964b13bfd9SJaved Absar for (Record *Part : Parts) 974b13bfd9SJaved Absar IdxParts.push_back(RegBank.getSubRegIdx(Part)); 98afcff2d0SMatthias Braun setConcatenationOf(IdxParts); 993697143aSJakob Stoklund Olesen } 1003697143aSJakob Stoklund Olesen } 1013697143aSJakob Stoklund Olesen 10291b5cf84SKrzysztof Parzyszek LaneBitmask CodeGenSubRegIndex::computeLaneMask() const { 103d346d487SJakob Stoklund Olesen // Already computed? 104ea9f8ce0SKrzysztof Parzyszek if (LaneMask.any()) 105d346d487SJakob Stoklund Olesen return LaneMask; 106d346d487SJakob Stoklund Olesen 107d346d487SJakob Stoklund Olesen // Recursion guard, shouldn't be required. 10891b5cf84SKrzysztof Parzyszek LaneMask = LaneBitmask::getAll(); 109d346d487SJakob Stoklund Olesen 110d346d487SJakob Stoklund Olesen // The lane mask is simply the union of all sub-indices. 11191b5cf84SKrzysztof Parzyszek LaneBitmask M; 1128f25d3bcSDavid Blaikie for (const auto &C : Composed) 1138f25d3bcSDavid Blaikie M |= C.second->computeLaneMask(); 114ea9f8ce0SKrzysztof Parzyszek assert(M.any() && "Missing lane mask, sub-register cycle?"); 115d346d487SJakob Stoklund Olesen LaneMask = M; 116d346d487SJakob Stoklund Olesen return LaneMask; 117d346d487SJakob Stoklund Olesen } 118d346d487SJakob Stoklund Olesen 119afcff2d0SMatthias Braun void CodeGenSubRegIndex::setConcatenationOf( 120afcff2d0SMatthias Braun ArrayRef<CodeGenSubRegIndex*> Parts) { 121abbc4a7fSMatthias Braun if (ConcatenationOf.empty()) 122afcff2d0SMatthias Braun ConcatenationOf.assign(Parts.begin(), Parts.end()); 123abbc4a7fSMatthias Braun else 124afcff2d0SMatthias Braun assert(std::equal(Parts.begin(), Parts.end(), 125afcff2d0SMatthias Braun ConcatenationOf.begin()) && "parts consistent"); 126afcff2d0SMatthias Braun } 127afcff2d0SMatthias Braun 128afcff2d0SMatthias Braun void CodeGenSubRegIndex::computeConcatTransitiveClosure() { 129afcff2d0SMatthias Braun for (SmallVectorImpl<CodeGenSubRegIndex*>::iterator 130afcff2d0SMatthias Braun I = ConcatenationOf.begin(); I != ConcatenationOf.end(); /*empty*/) { 131afcff2d0SMatthias Braun CodeGenSubRegIndex *SubIdx = *I; 132afcff2d0SMatthias Braun SubIdx->computeConcatTransitiveClosure(); 133afcff2d0SMatthias Braun #ifndef NDEBUG 134afcff2d0SMatthias Braun for (CodeGenSubRegIndex *SRI : SubIdx->ConcatenationOf) 135afcff2d0SMatthias Braun assert(SRI->ConcatenationOf.empty() && "No transitive closure?"); 136afcff2d0SMatthias Braun #endif 137afcff2d0SMatthias Braun 138afcff2d0SMatthias Braun if (SubIdx->ConcatenationOf.empty()) { 139afcff2d0SMatthias Braun ++I; 140afcff2d0SMatthias Braun } else { 141afcff2d0SMatthias Braun I = ConcatenationOf.erase(I); 142afcff2d0SMatthias Braun I = ConcatenationOf.insert(I, SubIdx->ConcatenationOf.begin(), 143afcff2d0SMatthias Braun SubIdx->ConcatenationOf.end()); 144afcff2d0SMatthias Braun I += SubIdx->ConcatenationOf.size(); 145afcff2d0SMatthias Braun } 146afcff2d0SMatthias Braun } 147afcff2d0SMatthias Braun } 148afcff2d0SMatthias Braun 149f1bb1519SJakob Stoklund Olesen //===----------------------------------------------------------------------===// 15068d6d8abSJakob Stoklund Olesen // CodeGenRegister 15168d6d8abSJakob Stoklund Olesen //===----------------------------------------------------------------------===// 15268d6d8abSJakob Stoklund Olesen 15384bd44ebSJakob Stoklund Olesen CodeGenRegister::CodeGenRegister(Record *R, unsigned Enum) 154892e4567SChristudasan Devadasan : TheDef(R), EnumValue(Enum), 155892e4567SChristudasan Devadasan CostPerUse(R->getValueAsListOfInts("CostPerUse")), 156f43b5995SJakob Stoklund Olesen CoveredBySubRegs(R->getValueAsBit("CoveredBySubRegs")), 157892e4567SChristudasan Devadasan HasDisjunctSubRegs(false), SubRegsComplete(false), 158892e4567SChristudasan Devadasan SuperRegsComplete(false), TopoSig(~0u) { 159eb0c510eSKrzysztof Parzyszek Artificial = R->getValueAsBit("isArtificial"); 160eb0c510eSKrzysztof Parzyszek } 16168d6d8abSJakob Stoklund Olesen 162c1e9087fSJakob Stoklund Olesen void CodeGenRegister::buildObjectGraph(CodeGenRegBank &RegBank) { 163c1e9087fSJakob Stoklund Olesen std::vector<Record*> SRIs = TheDef->getValueAsListOfDefs("SubRegIndices"); 164c1e9087fSJakob Stoklund Olesen std::vector<Record*> SRs = TheDef->getValueAsListOfDefs("SubRegs"); 165c1e9087fSJakob Stoklund Olesen 166c1e9087fSJakob Stoklund Olesen if (SRIs.size() != SRs.size()) 167635debe8SJoerg Sonnenberger PrintFatalError(TheDef->getLoc(), 168c1e9087fSJakob Stoklund Olesen "SubRegs and SubRegIndices must have the same size"); 169c1e9087fSJakob Stoklund Olesen 170c1e9087fSJakob Stoklund Olesen for (unsigned i = 0, e = SRIs.size(); i != e; ++i) { 171c1e9087fSJakob Stoklund Olesen ExplicitSubRegIndices.push_back(RegBank.getSubRegIdx(SRIs[i])); 172c1e9087fSJakob Stoklund Olesen ExplicitSubRegs.push_back(RegBank.getReg(SRs[i])); 173c1e9087fSJakob Stoklund Olesen } 174c08df9e5SJakob Stoklund Olesen 175c08df9e5SJakob Stoklund Olesen // Also compute leading super-registers. Each register has a list of 176c08df9e5SJakob Stoklund Olesen // covered-by-subregs super-registers where it appears as the first explicit 177c08df9e5SJakob Stoklund Olesen // sub-register. 178c08df9e5SJakob Stoklund Olesen // 179c08df9e5SJakob Stoklund Olesen // This is used by computeSecondarySubRegs() to find candidates. 180c08df9e5SJakob Stoklund Olesen if (CoveredBySubRegs && !ExplicitSubRegs.empty()) 181c08df9e5SJakob Stoklund Olesen ExplicitSubRegs.front()->LeadingSuperRegs.push_back(this); 182534848b1SJakob Stoklund Olesen 183bde91766SBenjamin Kramer // Add ad hoc alias links. This is a symmetric relationship between two 184534848b1SJakob Stoklund Olesen // registers, so build a symmetric graph by adding links in both ends. 185534848b1SJakob Stoklund Olesen std::vector<Record*> Aliases = TheDef->getValueAsListOfDefs("Aliases"); 1864b13bfd9SJaved Absar for (Record *Alias : Aliases) { 1874b13bfd9SJaved Absar CodeGenRegister *Reg = RegBank.getReg(Alias); 188534848b1SJakob Stoklund Olesen ExplicitAliases.push_back(Reg); 189534848b1SJakob Stoklund Olesen Reg->ExplicitAliases.push_back(this); 190534848b1SJakob Stoklund Olesen } 191c1e9087fSJakob Stoklund Olesen } 192c1e9087fSJakob Stoklund Olesen 19350be8e44SKazu Hirata StringRef CodeGenRegister::getName() const { 1945be22a12SMichael Ilseman assert(TheDef && "no def"); 19568d6d8abSJakob Stoklund Olesen return TheDef->getName(); 19668d6d8abSJakob Stoklund Olesen } 19768d6d8abSJakob Stoklund Olesen 1981d7a2c57SAndrew Trick namespace { 199a3fe70d2SEugene Zelenko 2001d7a2c57SAndrew Trick // Iterate over all register units in a set of registers. 2011d7a2c57SAndrew Trick class RegUnitIterator { 202be2edf30SOwen Anderson CodeGenRegister::Vec::const_iterator RegI, RegE; 203a366d7b2SOwen Anderson CodeGenRegister::RegUnitList::iterator UnitI, UnitE; 204b59ad64eSJay Foad static CodeGenRegister::RegUnitList Sentinel; 2051d7a2c57SAndrew Trick 2061d7a2c57SAndrew Trick public: 207be2edf30SOwen Anderson RegUnitIterator(const CodeGenRegister::Vec &Regs): 208a3fe70d2SEugene Zelenko RegI(Regs.begin()), RegE(Regs.end()) { 2091d7a2c57SAndrew Trick 210b59ad64eSJay Foad if (RegI == RegE) { 211b59ad64eSJay Foad UnitI = Sentinel.end(); 212b59ad64eSJay Foad UnitE = Sentinel.end(); 213b59ad64eSJay Foad } else { 2141d7a2c57SAndrew Trick UnitI = (*RegI)->getRegUnits().begin(); 2151d7a2c57SAndrew Trick UnitE = (*RegI)->getRegUnits().end(); 2161d7a2c57SAndrew Trick advance(); 2171d7a2c57SAndrew Trick } 2181d7a2c57SAndrew Trick } 2191d7a2c57SAndrew Trick 2201d7a2c57SAndrew Trick bool isValid() const { return UnitI != UnitE; } 2211d7a2c57SAndrew Trick 222393f432dSBill Wendling unsigned operator* () const { assert(isValid()); return *UnitI; } 2231d7a2c57SAndrew Trick 2241d7a2c57SAndrew Trick const CodeGenRegister *getReg() const { assert(isValid()); return *RegI; } 2251d7a2c57SAndrew Trick 2261d7a2c57SAndrew Trick /// Preincrement. Move to the next unit. 2271d7a2c57SAndrew Trick void operator++() { 2281d7a2c57SAndrew Trick assert(isValid() && "Cannot advance beyond the last operand"); 2291d7a2c57SAndrew Trick ++UnitI; 2301d7a2c57SAndrew Trick advance(); 2311d7a2c57SAndrew Trick } 2321d7a2c57SAndrew Trick 2331d7a2c57SAndrew Trick protected: 2341d7a2c57SAndrew Trick void advance() { 2351d7a2c57SAndrew Trick while (UnitI == UnitE) { 2361d7a2c57SAndrew Trick if (++RegI == RegE) 2371d7a2c57SAndrew Trick break; 2381d7a2c57SAndrew Trick UnitI = (*RegI)->getRegUnits().begin(); 2391d7a2c57SAndrew Trick UnitE = (*RegI)->getRegUnits().end(); 2401d7a2c57SAndrew Trick } 2411d7a2c57SAndrew Trick } 2421d7a2c57SAndrew Trick }; 243a3fe70d2SEugene Zelenko 244b59ad64eSJay Foad CodeGenRegister::RegUnitList RegUnitIterator::Sentinel; 245b59ad64eSJay Foad 246a3fe70d2SEugene Zelenko } // end anonymous namespace 2471d7a2c57SAndrew Trick 2481d7a2c57SAndrew Trick // Return true of this unit appears in RegUnits. 2491d7a2c57SAndrew Trick static bool hasRegUnit(CodeGenRegister::RegUnitList &RegUnits, unsigned Unit) { 250a366d7b2SOwen Anderson return RegUnits.test(Unit); 2511d7a2c57SAndrew Trick } 2521d7a2c57SAndrew Trick 2531d7a2c57SAndrew Trick // Inherit register units from subregisters. 2541d7a2c57SAndrew Trick // Return true if the RegUnits changed. 2551d7a2c57SAndrew Trick bool CodeGenRegister::inheritRegUnits(CodeGenRegBank &RegBank) { 256a366d7b2SOwen Anderson bool changed = false; 2574b13bfd9SJaved Absar for (const auto &SubReg : SubRegs) { 2584b13bfd9SJaved Absar CodeGenRegister *SR = SubReg.second; 2591d7a2c57SAndrew Trick // Merge the subregister's units into this register's RegUnits. 260a366d7b2SOwen Anderson changed |= (RegUnits |= SR->RegUnits); 2611d7a2c57SAndrew Trick } 262441b7ac9SOwen Anderson 263a366d7b2SOwen Anderson return changed; 2641d7a2c57SAndrew Trick } 2651d7a2c57SAndrew Trick 26684bd44ebSJakob Stoklund Olesen const CodeGenRegister::SubRegMap & 2677d1fa380SJakob Stoklund Olesen CodeGenRegister::computeSubRegs(CodeGenRegBank &RegBank) { 26884bd44ebSJakob Stoklund Olesen // Only compute this map once. 26984bd44ebSJakob Stoklund Olesen if (SubRegsComplete) 27084bd44ebSJakob Stoklund Olesen return SubRegs; 27184bd44ebSJakob Stoklund Olesen SubRegsComplete = true; 27284bd44ebSJakob Stoklund Olesen 273a25e13aaSMatthias Braun HasDisjunctSubRegs = ExplicitSubRegs.size() > 1; 274a25e13aaSMatthias Braun 275c1e9087fSJakob Stoklund Olesen // First insert the explicit subregs and make sure they are fully indexed. 276c1e9087fSJakob Stoklund Olesen for (unsigned i = 0, e = ExplicitSubRegs.size(); i != e; ++i) { 277c1e9087fSJakob Stoklund Olesen CodeGenRegister *SR = ExplicitSubRegs[i]; 278c1e9087fSJakob Stoklund Olesen CodeGenSubRegIndex *Idx = ExplicitSubRegIndices[i]; 279eb0c510eSKrzysztof Parzyszek if (!SR->Artificial) 280eb0c510eSKrzysztof Parzyszek Idx->Artificial = false; 281f1bb1519SJakob Stoklund Olesen if (!SubRegs.insert(std::make_pair(Idx, SR)).second) 282635debe8SJoerg Sonnenberger PrintFatalError(TheDef->getLoc(), "SubRegIndex " + Idx->getName() + 28384bd44ebSJakob Stoklund Olesen " appears twice in Register " + getName()); 2849b41e5dbSJakob Stoklund Olesen // Map explicit sub-registers first, so the names take precedence. 2859b41e5dbSJakob Stoklund Olesen // The inherited sub-registers are mapped below. 2869b41e5dbSJakob Stoklund Olesen SubReg2Idx.insert(std::make_pair(SR, Idx)); 28784bd44ebSJakob Stoklund Olesen } 28884bd44ebSJakob Stoklund Olesen 28984bd44ebSJakob Stoklund Olesen // Keep track of inherited subregs and how they can be reached. 29021231609SJakob Stoklund Olesen SmallPtrSet<CodeGenRegister*, 8> Orphans; 29184bd44ebSJakob Stoklund Olesen 29221231609SJakob Stoklund Olesen // Clone inherited subregs and place duplicate entries in Orphans. 29384bd44ebSJakob Stoklund Olesen // Here the order is important - earlier subregs take precedence. 2944b13bfd9SJaved Absar for (CodeGenRegister *ESR : ExplicitSubRegs) { 2954b13bfd9SJaved Absar const SubRegMap &Map = ESR->computeSubRegs(RegBank); 2964b13bfd9SJaved Absar HasDisjunctSubRegs |= ESR->HasDisjunctSubRegs; 297d2b4713eSJakob Stoklund Olesen 2984b13bfd9SJaved Absar for (const auto &SR : Map) { 2994b13bfd9SJaved Absar if (!SubRegs.insert(SR).second) 3004b13bfd9SJaved Absar Orphans.insert(SR.second); 301d2b4713eSJakob Stoklund Olesen } 30284bd44ebSJakob Stoklund Olesen } 30384bd44ebSJakob Stoklund Olesen 30421231609SJakob Stoklund Olesen // Expand any composed subreg indices. 30521231609SJakob Stoklund Olesen // If dsub_2 has ComposedOf = [qsub_1, dsub_0], and this register has a 30621231609SJakob Stoklund Olesen // qsub_1 subreg, add a dsub_2 subreg. Keep growing Indices and process 30721231609SJakob Stoklund Olesen // expanded subreg indices recursively. 308c1e9087fSJakob Stoklund Olesen SmallVector<CodeGenSubRegIndex*, 8> Indices = ExplicitSubRegIndices; 30921231609SJakob Stoklund Olesen for (unsigned i = 0; i != Indices.size(); ++i) { 31021231609SJakob Stoklund Olesen CodeGenSubRegIndex *Idx = Indices[i]; 31121231609SJakob Stoklund Olesen const CodeGenSubRegIndex::CompMap &Comps = Idx->getComposites(); 31221231609SJakob Stoklund Olesen CodeGenRegister *SR = SubRegs[Idx]; 3137d1fa380SJakob Stoklund Olesen const SubRegMap &Map = SR->computeSubRegs(RegBank); 31421231609SJakob Stoklund Olesen 31521231609SJakob Stoklund Olesen // Look at the possible compositions of Idx. 31621231609SJakob Stoklund Olesen // They may not all be supported by SR. 317e6cf3d64SCoelacanthus for (auto Comp : Comps) { 318e6cf3d64SCoelacanthus SubRegMap::const_iterator SRI = Map.find(Comp.first); 31921231609SJakob Stoklund Olesen if (SRI == Map.end()) 32021231609SJakob Stoklund Olesen continue; // Idx + I->first doesn't exist in SR. 32121231609SJakob Stoklund Olesen // Add I->second as a name for the subreg SRI->second, assuming it is 32221231609SJakob Stoklund Olesen // orphaned, and the name isn't already used for something else. 323e6cf3d64SCoelacanthus if (SubRegs.count(Comp.second) || !Orphans.erase(SRI->second)) 32421231609SJakob Stoklund Olesen continue; 32521231609SJakob Stoklund Olesen // We found a new name for the orphaned sub-register. 326e6cf3d64SCoelacanthus SubRegs.insert(std::make_pair(Comp.second, SRI->second)); 327e6cf3d64SCoelacanthus Indices.push_back(Comp.second); 32821231609SJakob Stoklund Olesen } 32921231609SJakob Stoklund Olesen } 33021231609SJakob Stoklund Olesen 33184bd44ebSJakob Stoklund Olesen // Now Orphans contains the inherited subregisters without a direct index. 33284bd44ebSJakob Stoklund Olesen // Create inferred indexes for all missing entries. 33321231609SJakob Stoklund Olesen // Work backwards in the Indices vector in order to compose subregs bottom-up. 33421231609SJakob Stoklund Olesen // Consider this subreg sequence: 33521231609SJakob Stoklund Olesen // 33621231609SJakob Stoklund Olesen // qsub_1 -> dsub_0 -> ssub_0 33721231609SJakob Stoklund Olesen // 33821231609SJakob Stoklund Olesen // The qsub_1 -> dsub_0 composition becomes dsub_2, so the ssub_0 register 33921231609SJakob Stoklund Olesen // can be reached in two different ways: 34021231609SJakob Stoklund Olesen // 34121231609SJakob Stoklund Olesen // qsub_1 -> ssub_0 34221231609SJakob Stoklund Olesen // dsub_2 -> ssub_0 34321231609SJakob Stoklund Olesen // 34421231609SJakob Stoklund Olesen // We pick the latter composition because another register may have [dsub_0, 345bde91766SBenjamin Kramer // dsub_1, dsub_2] subregs without necessarily having a qsub_1 subreg. The 34621231609SJakob Stoklund Olesen // dsub_2 -> ssub_0 composition can be shared. 34721231609SJakob Stoklund Olesen while (!Indices.empty() && !Orphans.empty()) { 34821231609SJakob Stoklund Olesen CodeGenSubRegIndex *Idx = Indices.pop_back_val(); 34921231609SJakob Stoklund Olesen CodeGenRegister *SR = SubRegs[Idx]; 3507d1fa380SJakob Stoklund Olesen const SubRegMap &Map = SR->computeSubRegs(RegBank); 3514b13bfd9SJaved Absar for (const auto &SubReg : Map) 3524b13bfd9SJaved Absar if (Orphans.erase(SubReg.second)) 3534b13bfd9SJaved Absar SubRegs[RegBank.getCompositeSubRegIndex(Idx, SubReg.first)] = SubReg.second; 35484bd44ebSJakob Stoklund Olesen } 3551a004ca0SAndrew Trick 3569b41e5dbSJakob Stoklund Olesen // Compute the inverse SubReg -> Idx map. 3574b13bfd9SJaved Absar for (const auto &SubReg : SubRegs) { 3584b13bfd9SJaved Absar if (SubReg.second == this) { 359d7b66968SJakob Stoklund Olesen ArrayRef<SMLoc> Loc; 36059959363SJakob Stoklund Olesen if (TheDef) 36159959363SJakob Stoklund Olesen Loc = TheDef->getLoc(); 362635debe8SJoerg Sonnenberger PrintFatalError(Loc, "Register " + getName() + 36359959363SJakob Stoklund Olesen " has itself as a sub-register"); 36459959363SJakob Stoklund Olesen } 3659ae96c7aSJakob Stoklund Olesen 3669ae96c7aSJakob Stoklund Olesen // Compute AllSuperRegsCovered. 3679ae96c7aSJakob Stoklund Olesen if (!CoveredBySubRegs) 3684b13bfd9SJaved Absar SubReg.first->AllSuperRegsCovered = false; 3699ae96c7aSJakob Stoklund Olesen 37059959363SJakob Stoklund Olesen // Ensure that every sub-register has a unique name. 37159959363SJakob Stoklund Olesen DenseMap<const CodeGenRegister*, CodeGenSubRegIndex*>::iterator Ins = 3724b13bfd9SJaved Absar SubReg2Idx.insert(std::make_pair(SubReg.second, SubReg.first)).first; 3734b13bfd9SJaved Absar if (Ins->second == SubReg.first) 3749b41e5dbSJakob Stoklund Olesen continue; 3754b13bfd9SJaved Absar // Trouble: Two different names for SubReg.second. 376d7b66968SJakob Stoklund Olesen ArrayRef<SMLoc> Loc; 37759959363SJakob Stoklund Olesen if (TheDef) 37859959363SJakob Stoklund Olesen Loc = TheDef->getLoc(); 379635debe8SJoerg Sonnenberger PrintFatalError(Loc, "Sub-register can't have two names: " + 3804b13bfd9SJaved Absar SubReg.second->getName() + " available as " + 3814b13bfd9SJaved Absar SubReg.first->getName() + " and " + Ins->second->getName()); 3829b41e5dbSJakob Stoklund Olesen } 3839b41e5dbSJakob Stoklund Olesen 384c08df9e5SJakob Stoklund Olesen // Derive possible names for sub-register concatenations from any explicit 385c08df9e5SJakob Stoklund Olesen // sub-registers. By doing this before computeSecondarySubRegs(), we ensure 386c08df9e5SJakob Stoklund Olesen // that getConcatSubRegIndex() won't invent any concatenated indices that the 387c08df9e5SJakob Stoklund Olesen // user already specified. 388c08df9e5SJakob Stoklund Olesen for (unsigned i = 0, e = ExplicitSubRegs.size(); i != e; ++i) { 389c08df9e5SJakob Stoklund Olesen CodeGenRegister *SR = ExplicitSubRegs[i]; 390fd974949SKrzysztof Parzyszek if (!SR->CoveredBySubRegs || SR->ExplicitSubRegs.size() <= 1 || 391fd974949SKrzysztof Parzyszek SR->Artificial) 392c08df9e5SJakob Stoklund Olesen continue; 393c08df9e5SJakob Stoklund Olesen 394c08df9e5SJakob Stoklund Olesen // SR is composed of multiple sub-regs. Find their names in this register. 395c08df9e5SJakob Stoklund Olesen SmallVector<CodeGenSubRegIndex*, 8> Parts; 396fd974949SKrzysztof Parzyszek for (unsigned j = 0, e = SR->ExplicitSubRegs.size(); j != e; ++j) { 397fd974949SKrzysztof Parzyszek CodeGenSubRegIndex &I = *SR->ExplicitSubRegIndices[j]; 398fd974949SKrzysztof Parzyszek if (!I.Artificial) 399c08df9e5SJakob Stoklund Olesen Parts.push_back(getSubRegIndex(SR->ExplicitSubRegs[j])); 400fd974949SKrzysztof Parzyszek } 401c08df9e5SJakob Stoklund Olesen 402c08df9e5SJakob Stoklund Olesen // Offer this as an existing spelling for the concatenation of Parts. 403afcff2d0SMatthias Braun CodeGenSubRegIndex &Idx = *ExplicitSubRegIndices[i]; 404afcff2d0SMatthias Braun Idx.setConcatenationOf(Parts); 405c08df9e5SJakob Stoklund Olesen } 406c08df9e5SJakob Stoklund Olesen 407066fba1aSJakob Stoklund Olesen // Initialize RegUnitList. Because getSubRegs is called recursively, this 408066fba1aSJakob Stoklund Olesen // processes the register hierarchy in postorder. 4091a004ca0SAndrew Trick // 410066fba1aSJakob Stoklund Olesen // Inherit all sub-register units. It is good enough to look at the explicit 411066fba1aSJakob Stoklund Olesen // sub-registers, the other registers won't contribute any more units. 412066fba1aSJakob Stoklund Olesen for (unsigned i = 0, e = ExplicitSubRegs.size(); i != e; ++i) { 413066fba1aSJakob Stoklund Olesen CodeGenRegister *SR = ExplicitSubRegs[i]; 414a366d7b2SOwen Anderson RegUnits |= SR->RegUnits; 415066fba1aSJakob Stoklund Olesen } 416066fba1aSJakob Stoklund Olesen 417066fba1aSJakob Stoklund Olesen // Absent any ad hoc aliasing, we create one register unit per leaf register. 418066fba1aSJakob Stoklund Olesen // These units correspond to the maximal cliques in the register overlap 419066fba1aSJakob Stoklund Olesen // graph which is optimal. 420066fba1aSJakob Stoklund Olesen // 421066fba1aSJakob Stoklund Olesen // When there is ad hoc aliasing, we simply create one unit per edge in the 422066fba1aSJakob Stoklund Olesen // undirected ad hoc aliasing graph. Technically, we could do better by 423066fba1aSJakob Stoklund Olesen // identifying maximal cliques in the ad hoc graph, but cliques larger than 2 424066fba1aSJakob Stoklund Olesen // are extremely rare anyway (I've never seen one), so we don't bother with 425066fba1aSJakob Stoklund Olesen // the added complexity. 426066fba1aSJakob Stoklund Olesen for (unsigned i = 0, e = ExplicitAliases.size(); i != e; ++i) { 427066fba1aSJakob Stoklund Olesen CodeGenRegister *AR = ExplicitAliases[i]; 428066fba1aSJakob Stoklund Olesen // Only visit each edge once. 429066fba1aSJakob Stoklund Olesen if (AR->SubRegsComplete) 430066fba1aSJakob Stoklund Olesen continue; 431066fba1aSJakob Stoklund Olesen // Create a RegUnit representing this alias edge, and add it to both 432066fba1aSJakob Stoklund Olesen // registers. 433095f22afSJakob Stoklund Olesen unsigned Unit = RegBank.newRegUnit(this, AR); 434a366d7b2SOwen Anderson RegUnits.set(Unit); 435a366d7b2SOwen Anderson AR->RegUnits.set(Unit); 436066fba1aSJakob Stoklund Olesen } 437066fba1aSJakob Stoklund Olesen 438066fba1aSJakob Stoklund Olesen // Finally, create units for leaf registers without ad hoc aliases. Note that 439066fba1aSJakob Stoklund Olesen // a leaf register with ad hoc aliases doesn't get its own unit - it isn't 440066fba1aSJakob Stoklund Olesen // necessary. This means the aliasing leaf registers can share a single unit. 441066fba1aSJakob Stoklund Olesen if (RegUnits.empty()) 442a366d7b2SOwen Anderson RegUnits.set(RegBank.newRegUnit(this)); 443066fba1aSJakob Stoklund Olesen 4447f381bd2SJakob Stoklund Olesen // We have now computed the native register units. More may be adopted later 4457f381bd2SJakob Stoklund Olesen // for balancing purposes. 446a366d7b2SOwen Anderson NativeRegUnits = RegUnits; 4477f381bd2SJakob Stoklund Olesen 44884bd44ebSJakob Stoklund Olesen return SubRegs; 44984bd44ebSJakob Stoklund Olesen } 45084bd44ebSJakob Stoklund Olesen 451c08df9e5SJakob Stoklund Olesen // In a register that is covered by its sub-registers, try to find redundant 452c08df9e5SJakob Stoklund Olesen // sub-registers. For example: 453c08df9e5SJakob Stoklund Olesen // 454c08df9e5SJakob Stoklund Olesen // QQ0 = {Q0, Q1} 455c08df9e5SJakob Stoklund Olesen // Q0 = {D0, D1} 456c08df9e5SJakob Stoklund Olesen // Q1 = {D2, D3} 457c08df9e5SJakob Stoklund Olesen // 458c08df9e5SJakob Stoklund Olesen // We can infer that D1_D2 is also a sub-register, even if it wasn't named in 459c08df9e5SJakob Stoklund Olesen // the register definition. 460c08df9e5SJakob Stoklund Olesen // 461c08df9e5SJakob Stoklund Olesen // The explicitly specified registers form a tree. This function discovers 462c08df9e5SJakob Stoklund Olesen // sub-register relationships that would force a DAG. 463c08df9e5SJakob Stoklund Olesen // 464c08df9e5SJakob Stoklund Olesen void CodeGenRegister::computeSecondarySubRegs(CodeGenRegBank &RegBank) { 465c08df9e5SJakob Stoklund Olesen SmallVector<SubRegMap::value_type, 8> NewSubRegs; 466c08df9e5SJakob Stoklund Olesen 467afcff2d0SMatthias Braun std::queue<std::pair<CodeGenSubRegIndex*,CodeGenRegister*>> SubRegQueue; 468afcff2d0SMatthias Braun for (std::pair<CodeGenSubRegIndex*,CodeGenRegister*> P : SubRegs) 469afcff2d0SMatthias Braun SubRegQueue.push(P); 470afcff2d0SMatthias Braun 471c08df9e5SJakob Stoklund Olesen // Look at the leading super-registers of each sub-register. Those are the 472c08df9e5SJakob Stoklund Olesen // candidates for new sub-registers, assuming they are fully contained in 473c08df9e5SJakob Stoklund Olesen // this register. 474afcff2d0SMatthias Braun while (!SubRegQueue.empty()) { 475afcff2d0SMatthias Braun CodeGenSubRegIndex *SubRegIdx; 476afcff2d0SMatthias Braun const CodeGenRegister *SubReg; 477afcff2d0SMatthias Braun std::tie(SubRegIdx, SubReg) = SubRegQueue.front(); 478afcff2d0SMatthias Braun SubRegQueue.pop(); 479afcff2d0SMatthias Braun 480c08df9e5SJakob Stoklund Olesen const CodeGenRegister::SuperRegList &Leads = SubReg->LeadingSuperRegs; 481c08df9e5SJakob Stoklund Olesen for (unsigned i = 0, e = Leads.size(); i != e; ++i) { 482c08df9e5SJakob Stoklund Olesen CodeGenRegister *Cand = const_cast<CodeGenRegister*>(Leads[i]); 483c08df9e5SJakob Stoklund Olesen // Already got this sub-register? 484c08df9e5SJakob Stoklund Olesen if (Cand == this || getSubRegIndex(Cand)) 485c08df9e5SJakob Stoklund Olesen continue; 486c08df9e5SJakob Stoklund Olesen // Check if each component of Cand is already a sub-register. 487c08df9e5SJakob Stoklund Olesen assert(!Cand->ExplicitSubRegs.empty() && 488c08df9e5SJakob Stoklund Olesen "Super-register has no sub-registers"); 489afcff2d0SMatthias Braun if (Cand->ExplicitSubRegs.size() == 1) 490afcff2d0SMatthias Braun continue; 491afcff2d0SMatthias Braun SmallVector<CodeGenSubRegIndex*, 8> Parts; 492afcff2d0SMatthias Braun // We know that the first component is (SubRegIdx,SubReg). However we 493afcff2d0SMatthias Braun // may still need to split it into smaller subregister parts. 494abbc4a7fSMatthias Braun assert(Cand->ExplicitSubRegs[0] == SubReg && "LeadingSuperRegs correct"); 495abbc4a7fSMatthias Braun assert(getSubRegIndex(SubReg) == SubRegIdx && "LeadingSuperRegs correct"); 496afcff2d0SMatthias Braun for (CodeGenRegister *SubReg : Cand->ExplicitSubRegs) { 497afcff2d0SMatthias Braun if (CodeGenSubRegIndex *SubRegIdx = getSubRegIndex(SubReg)) { 4985d3f3d3aSKazu Hirata if (SubRegIdx->ConcatenationOf.empty()) 499afcff2d0SMatthias Braun Parts.push_back(SubRegIdx); 5005d3f3d3aSKazu Hirata else 5015d3f3d3aSKazu Hirata append_range(Parts, SubRegIdx->ConcatenationOf); 502afcff2d0SMatthias Braun } else { 503c08df9e5SJakob Stoklund Olesen // Sub-register doesn't exist. 504c08df9e5SJakob Stoklund Olesen Parts.clear(); 505c08df9e5SJakob Stoklund Olesen break; 506c08df9e5SJakob Stoklund Olesen } 507c08df9e5SJakob Stoklund Olesen } 508afcff2d0SMatthias Braun // There is nothing to do if some Cand sub-register is not part of this 509afcff2d0SMatthias Braun // register. 510afcff2d0SMatthias Braun if (Parts.empty()) 511c08df9e5SJakob Stoklund Olesen continue; 512c08df9e5SJakob Stoklund Olesen 513c08df9e5SJakob Stoklund Olesen // Each part of Cand is a sub-register of this. Make the full Cand also 514c08df9e5SJakob Stoklund Olesen // a sub-register with a concatenated sub-register index. 515c08df9e5SJakob Stoklund Olesen CodeGenSubRegIndex *Concat = RegBank.getConcatSubRegIndex(Parts); 516afcff2d0SMatthias Braun std::pair<CodeGenSubRegIndex*,CodeGenRegister*> NewSubReg = 517afcff2d0SMatthias Braun std::make_pair(Concat, Cand); 518c08df9e5SJakob Stoklund Olesen 519afcff2d0SMatthias Braun if (!SubRegs.insert(NewSubReg).second) 520c08df9e5SJakob Stoklund Olesen continue; 521c08df9e5SJakob Stoklund Olesen 522afcff2d0SMatthias Braun // We inserted a new subregister. 523afcff2d0SMatthias Braun NewSubRegs.push_back(NewSubReg); 524afcff2d0SMatthias Braun SubRegQueue.push(NewSubReg); 525afcff2d0SMatthias Braun SubReg2Idx.insert(std::make_pair(Cand, Concat)); 526afcff2d0SMatthias Braun } 527c08df9e5SJakob Stoklund Olesen } 528c08df9e5SJakob Stoklund Olesen 529c08df9e5SJakob Stoklund Olesen // Create sub-register index composition maps for the synthesized indices. 530c08df9e5SJakob Stoklund Olesen for (unsigned i = 0, e = NewSubRegs.size(); i != e; ++i) { 531c08df9e5SJakob Stoklund Olesen CodeGenSubRegIndex *NewIdx = NewSubRegs[i].first; 532c08df9e5SJakob Stoklund Olesen CodeGenRegister *NewSubReg = NewSubRegs[i].second; 533e6cf3d64SCoelacanthus for (auto SubReg : NewSubReg->SubRegs) { 534e6cf3d64SCoelacanthus CodeGenSubRegIndex *SubIdx = getSubRegIndex(SubReg.second); 535c08df9e5SJakob Stoklund Olesen if (!SubIdx) 536635debe8SJoerg Sonnenberger PrintFatalError(TheDef->getLoc(), "No SubRegIndex for " + 537e6cf3d64SCoelacanthus SubReg.second->getName() + 538e6cf3d64SCoelacanthus " in " + getName()); 539e6cf3d64SCoelacanthus NewIdx->addComposite(SubReg.first, SubIdx); 540c08df9e5SJakob Stoklund Olesen } 541c08df9e5SJakob Stoklund Olesen } 542c08df9e5SJakob Stoklund Olesen } 543c08df9e5SJakob Stoklund Olesen 54450ecd0ffSJakob Stoklund Olesen void CodeGenRegister::computeSuperRegs(CodeGenRegBank &RegBank) { 5453f3eb180SJakob Stoklund Olesen // Only visit each register once. 5463f3eb180SJakob Stoklund Olesen if (SuperRegsComplete) 5473f3eb180SJakob Stoklund Olesen return; 5483f3eb180SJakob Stoklund Olesen SuperRegsComplete = true; 5493f3eb180SJakob Stoklund Olesen 5503f3eb180SJakob Stoklund Olesen // Make sure all sub-registers have been visited first, so the super-reg 5513f3eb180SJakob Stoklund Olesen // lists will be topologically ordered. 552e6cf3d64SCoelacanthus for (auto SubReg : SubRegs) 553e6cf3d64SCoelacanthus SubReg.second->computeSuperRegs(RegBank); 5543f3eb180SJakob Stoklund Olesen 5553f3eb180SJakob Stoklund Olesen // Now add this as a super-register on all sub-registers. 55650ecd0ffSJakob Stoklund Olesen // Also compute the TopoSigId in post-order. 55750ecd0ffSJakob Stoklund Olesen TopoSigId Id; 558e6cf3d64SCoelacanthus for (auto SubReg : SubRegs) { 55950ecd0ffSJakob Stoklund Olesen // Topological signature computed from SubIdx, TopoId(SubReg). 56050ecd0ffSJakob Stoklund Olesen // Loops and idempotent indices have TopoSig = ~0u. 561e6cf3d64SCoelacanthus Id.push_back(SubReg.first->EnumValue); 562e6cf3d64SCoelacanthus Id.push_back(SubReg.second->TopoSig); 56350ecd0ffSJakob Stoklund Olesen 5643f3eb180SJakob Stoklund Olesen // Don't add duplicate entries. 565e6cf3d64SCoelacanthus if (!SubReg.second->SuperRegs.empty() && 566e6cf3d64SCoelacanthus SubReg.second->SuperRegs.back() == this) 5673f3eb180SJakob Stoklund Olesen continue; 568e6cf3d64SCoelacanthus SubReg.second->SuperRegs.push_back(this); 5693f3eb180SJakob Stoklund Olesen } 57050ecd0ffSJakob Stoklund Olesen TopoSig = RegBank.getTopoSig(Id); 5713f3eb180SJakob Stoklund Olesen } 5723f3eb180SJakob Stoklund Olesen 573d2b4713eSJakob Stoklund Olesen void 57400296815SJakob Stoklund Olesen CodeGenRegister::addSubRegsPreOrder(SetVector<const CodeGenRegister*> &OSet, 575f1bb1519SJakob Stoklund Olesen CodeGenRegBank &RegBank) const { 576d2b4713eSJakob Stoklund Olesen assert(SubRegsComplete && "Must precompute sub-registers"); 577c1e9087fSJakob Stoklund Olesen for (unsigned i = 0, e = ExplicitSubRegs.size(); i != e; ++i) { 578c1e9087fSJakob Stoklund Olesen CodeGenRegister *SR = ExplicitSubRegs[i]; 579d2b4713eSJakob Stoklund Olesen if (OSet.insert(SR)) 580f1bb1519SJakob Stoklund Olesen SR->addSubRegsPreOrder(OSet, RegBank); 581d2b4713eSJakob Stoklund Olesen } 582c08df9e5SJakob Stoklund Olesen // Add any secondary sub-registers that weren't part of the explicit tree. 583e6cf3d64SCoelacanthus for (auto SubReg : SubRegs) 584e6cf3d64SCoelacanthus OSet.insert(SubReg.second); 585d2b4713eSJakob Stoklund Olesen } 586d2b4713eSJakob Stoklund Olesen 5871d7a2c57SAndrew Trick // Get the sum of this register's unit weights. 5881d7a2c57SAndrew Trick unsigned CodeGenRegister::getWeight(const CodeGenRegBank &RegBank) const { 5891d7a2c57SAndrew Trick unsigned Weight = 0; 590e6cf3d64SCoelacanthus for (unsigned RegUnit : RegUnits) { 591e6cf3d64SCoelacanthus Weight += RegBank.getRegUnit(RegUnit).Weight; 5921d7a2c57SAndrew Trick } 5931d7a2c57SAndrew Trick return Weight; 5941d7a2c57SAndrew Trick } 5951d7a2c57SAndrew Trick 59668d6d8abSJakob Stoklund Olesen //===----------------------------------------------------------------------===// 5973bd1b65eSJakob Stoklund Olesen // RegisterTuples 5983bd1b65eSJakob Stoklund Olesen //===----------------------------------------------------------------------===// 5993bd1b65eSJakob Stoklund Olesen 6003bd1b65eSJakob Stoklund Olesen // A RegisterTuples def is used to generate pseudo-registers from lists of 6013bd1b65eSJakob Stoklund Olesen // sub-registers. We provide a SetTheory expander class that returns the new 6023bd1b65eSJakob Stoklund Olesen // registers. 6033bd1b65eSJakob Stoklund Olesen namespace { 604a3fe70d2SEugene Zelenko 6053bd1b65eSJakob Stoklund Olesen struct TupleExpander : SetTheory::Expander { 6066c21b3b5SFlorian Hahn // Reference to SynthDefs in the containing CodeGenRegBank, to keep track of 6076c21b3b5SFlorian Hahn // the synthesized definitions for their lifetime. 6086c21b3b5SFlorian Hahn std::vector<std::unique_ptr<Record>> &SynthDefs; 6096c21b3b5SFlorian Hahn 6106c21b3b5SFlorian Hahn TupleExpander(std::vector<std::unique_ptr<Record>> &SynthDefs) 6116c21b3b5SFlorian Hahn : SynthDefs(SynthDefs) {} 6126c21b3b5SFlorian Hahn 613716b0730SCraig Topper void expand(SetTheory &ST, Record *Def, SetTheory::RecSet &Elts) override { 6143bd1b65eSJakob Stoklund Olesen std::vector<Record*> Indices = Def->getValueAsListOfDefs("SubRegIndices"); 6153bd1b65eSJakob Stoklund Olesen unsigned Dim = Indices.size(); 616af8ee2cdSDavid Greene ListInit *SubRegs = Def->getValueAsListInit("SubRegs"); 617664f6a04SCraig Topper if (Dim != SubRegs->size()) 618635debe8SJoerg Sonnenberger PrintFatalError(Def->getLoc(), "SubRegIndices and SubRegs size mismatch"); 6193bd1b65eSJakob Stoklund Olesen if (Dim < 2) 620635debe8SJoerg Sonnenberger PrintFatalError(Def->getLoc(), 621635debe8SJoerg Sonnenberger "Tuples must have at least 2 sub-registers"); 6223bd1b65eSJakob Stoklund Olesen 6233bd1b65eSJakob Stoklund Olesen // Evaluate the sub-register lists to be zipped. 6243bd1b65eSJakob Stoklund Olesen unsigned Length = ~0u; 6253bd1b65eSJakob Stoklund Olesen SmallVector<SetTheory::RecSet, 4> Lists(Dim); 6263bd1b65eSJakob Stoklund Olesen for (unsigned i = 0; i != Dim; ++i) { 62770909373SJoerg Sonnenberger ST.evaluate(SubRegs->getElement(i), Lists[i], Def->getLoc()); 6283bd1b65eSJakob Stoklund Olesen Length = std::min(Length, unsigned(Lists[i].size())); 6293bd1b65eSJakob Stoklund Olesen } 6303bd1b65eSJakob Stoklund Olesen 6313bd1b65eSJakob Stoklund Olesen if (Length == 0) 6323bd1b65eSJakob Stoklund Olesen return; 6333bd1b65eSJakob Stoklund Olesen 6343bd1b65eSJakob Stoklund Olesen // Precompute some types. 6353bd1b65eSJakob Stoklund Olesen Record *RegisterCl = Def->getRecords().getClass("Register"); 636abcfdceaSJakob Stoklund Olesen RecTy *RegisterRecTy = RecordRecTy::get(RegisterCl); 63701fcf923SStanislav Mekhanoshin std::vector<StringRef> RegNames = 63801fcf923SStanislav Mekhanoshin Def->getValueAsListOfStrings("RegAsmNames"); 6393bd1b65eSJakob Stoklund Olesen 6403bd1b65eSJakob Stoklund Olesen // Zip them up. 641*2ac3cd20SRiver Riddle RecordKeeper &RK = Def->getRecords(); 6423bd1b65eSJakob Stoklund Olesen for (unsigned n = 0; n != Length; ++n) { 6433bd1b65eSJakob Stoklund Olesen std::string Name; 6443bd1b65eSJakob Stoklund Olesen Record *Proto = Lists[0][n]; 645af8ee2cdSDavid Greene std::vector<Init*> Tuple; 6463bd1b65eSJakob Stoklund Olesen for (unsigned i = 0; i != Dim; ++i) { 6473bd1b65eSJakob Stoklund Olesen Record *Reg = Lists[i][n]; 6483bd1b65eSJakob Stoklund Olesen if (i) Name += '_'; 6493bd1b65eSJakob Stoklund Olesen Name += Reg->getName(); 650abcfdceaSJakob Stoklund Olesen Tuple.push_back(DefInit::get(Reg)); 6513bd1b65eSJakob Stoklund Olesen } 6523bd1b65eSJakob Stoklund Olesen 653892e4567SChristudasan Devadasan // Take the cost list of the first register in the tuple. 654892e4567SChristudasan Devadasan ListInit *CostList = Proto->getValueAsListInit("CostPerUse"); 655892e4567SChristudasan Devadasan SmallVector<Init *, 2> CostPerUse; 656892e4567SChristudasan Devadasan CostPerUse.insert(CostPerUse.end(), CostList->begin(), CostList->end()); 657892e4567SChristudasan Devadasan 658*2ac3cd20SRiver Riddle StringInit *AsmName = StringInit::get(RK, ""); 65901fcf923SStanislav Mekhanoshin if (!RegNames.empty()) { 66001fcf923SStanislav Mekhanoshin if (RegNames.size() <= n) 66101fcf923SStanislav Mekhanoshin PrintFatalError(Def->getLoc(), 66201fcf923SStanislav Mekhanoshin "Register tuple definition missing name for '" + 66301fcf923SStanislav Mekhanoshin Name + "'."); 664*2ac3cd20SRiver Riddle AsmName = StringInit::get(RK, RegNames[n]); 66501fcf923SStanislav Mekhanoshin } 66601fcf923SStanislav Mekhanoshin 6673bd1b65eSJakob Stoklund Olesen // Create a new Record representing the synthesized register. This record 6683bd1b65eSJakob Stoklund Olesen // is only for consumption by CodeGenRegister, it is not added to the 6693bd1b65eSJakob Stoklund Olesen // RecordKeeper. 6706c21b3b5SFlorian Hahn SynthDefs.emplace_back( 6710eaee545SJonas Devlieghere std::make_unique<Record>(Name, Def->getLoc(), Def->getRecords())); 6726c21b3b5SFlorian Hahn Record *NewReg = SynthDefs.back().get(); 6733bd1b65eSJakob Stoklund Olesen Elts.insert(NewReg); 6743bd1b65eSJakob Stoklund Olesen 6753bd1b65eSJakob Stoklund Olesen // Copy Proto super-classes. 6760e41d0b9SCraig Topper ArrayRef<std::pair<Record *, SMRange>> Supers = Proto->getSuperClasses(); 6770e41d0b9SCraig Topper for (const auto &SuperPair : Supers) 6780e41d0b9SCraig Topper NewReg->addSuperClass(SuperPair.first, SuperPair.second); 6793bd1b65eSJakob Stoklund Olesen 6803bd1b65eSJakob Stoklund Olesen // Copy Proto fields. 6813bd1b65eSJakob Stoklund Olesen for (unsigned i = 0, e = Proto->getValues().size(); i != e; ++i) { 6823bd1b65eSJakob Stoklund Olesen RecordVal RV = Proto->getValues()[i]; 6833bd1b65eSJakob Stoklund Olesen 684f43b5995SJakob Stoklund Olesen // Skip existing fields, like NAME. 685f43b5995SJakob Stoklund Olesen if (NewReg->getValue(RV.getNameInit())) 686071c69cdSJakob Stoklund Olesen continue; 687071c69cdSJakob Stoklund Olesen 688f43b5995SJakob Stoklund Olesen StringRef Field = RV.getName(); 689f43b5995SJakob Stoklund Olesen 6903bd1b65eSJakob Stoklund Olesen // Replace the sub-register list with Tuple. 691f43b5995SJakob Stoklund Olesen if (Field == "SubRegs") 692e32ebf22SDavid Greene RV.setValue(ListInit::get(Tuple, RegisterRecTy)); 6933bd1b65eSJakob Stoklund Olesen 694f43b5995SJakob Stoklund Olesen if (Field == "AsmName") 69501fcf923SStanislav Mekhanoshin RV.setValue(AsmName); 6963bd1b65eSJakob Stoklund Olesen 6973bd1b65eSJakob Stoklund Olesen // CostPerUse is aggregated from all Tuple members. 698f43b5995SJakob Stoklund Olesen if (Field == "CostPerUse") 699892e4567SChristudasan Devadasan RV.setValue(ListInit::get(CostPerUse, CostList->getElementType())); 7003bd1b65eSJakob Stoklund Olesen 701f43b5995SJakob Stoklund Olesen // Composite registers are always covered by sub-registers. 702f43b5995SJakob Stoklund Olesen if (Field == "CoveredBySubRegs") 703*2ac3cd20SRiver Riddle RV.setValue(BitInit::get(RK, true)); 704f43b5995SJakob Stoklund Olesen 7053bd1b65eSJakob Stoklund Olesen // Copy fields from the RegisterTuples def. 706f43b5995SJakob Stoklund Olesen if (Field == "SubRegIndices" || 707f43b5995SJakob Stoklund Olesen Field == "CompositeIndices") { 708f43b5995SJakob Stoklund Olesen NewReg->addValue(*Def->getValue(Field)); 7093bd1b65eSJakob Stoklund Olesen continue; 7103bd1b65eSJakob Stoklund Olesen } 7113bd1b65eSJakob Stoklund Olesen 7123bd1b65eSJakob Stoklund Olesen // Some fields get their default uninitialized value. 713f43b5995SJakob Stoklund Olesen if (Field == "DwarfNumbers" || 714f43b5995SJakob Stoklund Olesen Field == "DwarfAlias" || 715f43b5995SJakob Stoklund Olesen Field == "Aliases") { 716f43b5995SJakob Stoklund Olesen if (const RecordVal *DefRV = RegisterCl->getValue(Field)) 717d9149a45SJakob Stoklund Olesen NewReg->addValue(*DefRV); 7183bd1b65eSJakob Stoklund Olesen continue; 7193bd1b65eSJakob Stoklund Olesen } 7203bd1b65eSJakob Stoklund Olesen 7213bd1b65eSJakob Stoklund Olesen // Everything else is copied from Proto. 7223bd1b65eSJakob Stoklund Olesen NewReg->addValue(RV); 7233bd1b65eSJakob Stoklund Olesen } 7243bd1b65eSJakob Stoklund Olesen } 7253bd1b65eSJakob Stoklund Olesen } 7263bd1b65eSJakob Stoklund Olesen }; 727a3fe70d2SEugene Zelenko 728a3fe70d2SEugene Zelenko } // end anonymous namespace 7293bd1b65eSJakob Stoklund Olesen 7303bd1b65eSJakob Stoklund Olesen //===----------------------------------------------------------------------===// 73168d6d8abSJakob Stoklund Olesen // CodeGenRegisterClass 73268d6d8abSJakob Stoklund Olesen //===----------------------------------------------------------------------===// 73368d6d8abSJakob Stoklund Olesen 734be2edf30SOwen Anderson static void sortAndUniqueRegisters(CodeGenRegister::Vec &M) { 735d5aecb94SBenjamin Kramer llvm::sort(M, deref<std::less<>>()); 736d5aecb94SBenjamin Kramer M.erase(std::unique(M.begin(), M.end(), deref<std::equal_to<>>()), M.end()); 737be2edf30SOwen Anderson } 738be2edf30SOwen Anderson 739d7bc5c26SJakob Stoklund Olesen CodeGenRegisterClass::CodeGenRegisterClass(CodeGenRegBank &RegBank, Record *R) 740adcd0268SBenjamin Kramer : TheDef(R), Name(std::string(R->getName())), 7416a75041aSChristudasan Devadasan TopoSigs(RegBank.getNumTopoSigs()), EnumValue(-1), TSFlags(0) { 7428e760e10SStanislav Mekhanoshin GeneratePressureSet = R->getValueAsBit("GeneratePressureSet"); 74368d6d8abSJakob Stoklund Olesen std::vector<Record*> TypeList = R->getValueAsListOfDefs("RegTypes"); 7441cfb2077SJay Foad if (TypeList.empty()) 7451cfb2077SJay Foad PrintFatalError(R->getLoc(), "RegTypes list must not be empty!"); 74668d6d8abSJakob Stoklund Olesen for (unsigned i = 0, e = TypeList.size(); i != e; ++i) { 74768d6d8abSJakob Stoklund Olesen Record *Type = TypeList[i]; 74868d6d8abSJakob Stoklund Olesen if (!Type->isSubClassOf("ValueType")) 749dff673bbSDaniel Sanders PrintFatalError(R->getLoc(), 750dff673bbSDaniel Sanders "RegTypes list member '" + Type->getName() + 751635debe8SJoerg Sonnenberger "' does not derive from the ValueType class!"); 752779d98e1SKrzysztof Parzyszek VTs.push_back(getValueTypeByHwMode(Type, RegBank.getHwModes())); 75368d6d8abSJakob Stoklund Olesen } 75468d6d8abSJakob Stoklund Olesen 755331534e5SJakob Stoklund Olesen // Allocation order 0 is the full set. AltOrders provides others. 756331534e5SJakob Stoklund Olesen const SetTheory::RecVec *Elements = RegBank.getSets().expand(R); 757331534e5SJakob Stoklund Olesen ListInit *AltOrders = R->getValueAsListInit("AltOrders"); 758664f6a04SCraig Topper Orders.resize(1 + AltOrders->size()); 759331534e5SJakob Stoklund Olesen 76035cea3daSJakob Stoklund Olesen // Default allocation order always contains all registers. 761eb0c510eSKrzysztof Parzyszek Artificial = true; 762331534e5SJakob Stoklund Olesen for (unsigned i = 0, e = Elements->size(); i != e; ++i) { 763331534e5SJakob Stoklund Olesen Orders[0].push_back((*Elements)[i]); 76450ecd0ffSJakob Stoklund Olesen const CodeGenRegister *Reg = RegBank.getReg((*Elements)[i]); 765be2edf30SOwen Anderson Members.push_back(Reg); 766eb0c510eSKrzysztof Parzyszek Artificial &= Reg->Artificial; 76750ecd0ffSJakob Stoklund Olesen TopoSigs.set(Reg->getTopoSig()); 768331534e5SJakob Stoklund Olesen } 769be2edf30SOwen Anderson sortAndUniqueRegisters(Members); 77068d6d8abSJakob Stoklund Olesen 77135cea3daSJakob Stoklund Olesen // Alternative allocation orders may be subsets. 77235cea3daSJakob Stoklund Olesen SetTheory::RecSet Order; 773664f6a04SCraig Topper for (unsigned i = 0, e = AltOrders->size(); i != e; ++i) { 77470909373SJoerg Sonnenberger RegBank.getSets().evaluate(AltOrders->getElement(i), Order, R->getLoc()); 775331534e5SJakob Stoklund Olesen Orders[1 + i].append(Order.begin(), Order.end()); 77635cea3daSJakob Stoklund Olesen // Verify that all altorder members are regclass members. 77735cea3daSJakob Stoklund Olesen while (!Order.empty()) { 77835cea3daSJakob Stoklund Olesen CodeGenRegister *Reg = RegBank.getReg(Order.back()); 77935cea3daSJakob Stoklund Olesen Order.pop_back(); 78035cea3daSJakob Stoklund Olesen if (!contains(Reg)) 781635debe8SJoerg Sonnenberger PrintFatalError(R->getLoc(), " AltOrder register " + Reg->getName() + 78235cea3daSJakob Stoklund Olesen " is not a class member"); 78335cea3daSJakob Stoklund Olesen } 78435cea3daSJakob Stoklund Olesen } 78535cea3daSJakob Stoklund Olesen 78668d6d8abSJakob Stoklund Olesen Namespace = R->getValueAsString("Namespace"); 787779d98e1SKrzysztof Parzyszek 788779d98e1SKrzysztof Parzyszek if (const RecordVal *RV = R->getValue("RegInfos")) 789779d98e1SKrzysztof Parzyszek if (DefInit *DI = dyn_cast_or_null<DefInit>(RV->getValue())) 790779d98e1SKrzysztof Parzyszek RSI = RegSizeInfoByHwMode(DI->getDef(), RegBank.getHwModes()); 791779d98e1SKrzysztof Parzyszek unsigned Size = R->getValueAsInt("Size"); 792779d98e1SKrzysztof Parzyszek assert((RSI.hasDefault() || Size != 0 || VTs[0].isSimple()) && 793779d98e1SKrzysztof Parzyszek "Impossible to determine register size"); 794779d98e1SKrzysztof Parzyszek if (!RSI.hasDefault()) { 795779d98e1SKrzysztof Parzyszek RegSizeInfo RI; 796779d98e1SKrzysztof Parzyszek RI.RegSize = RI.SpillSize = Size ? Size 797779d98e1SKrzysztof Parzyszek : VTs[0].getSimple().getSizeInBits(); 798779d98e1SKrzysztof Parzyszek RI.SpillAlignment = R->getValueAsInt("Alignment"); 79956277e3eSCraig Topper RSI.insertRegSizeForMode(DefaultMode, RI); 800779d98e1SKrzysztof Parzyszek } 801779d98e1SKrzysztof Parzyszek 80268d6d8abSJakob Stoklund Olesen CopyCost = R->getValueAsInt("CopyCost"); 80368d6d8abSJakob Stoklund Olesen Allocatable = R->getValueAsBit("isAllocatable"); 804dd8fbf57SJakob Stoklund Olesen AltOrderSelect = R->getValueAsString("AltOrderSelect"); 805a354cdd0SMatthias Braun int AllocationPriority = R->getValueAsInt("AllocationPriority"); 806a354cdd0SMatthias Braun if (AllocationPriority < 0 || AllocationPriority > 63) 807a354cdd0SMatthias Braun PrintFatalError(R->getLoc(), "AllocationPriority out of range [0,63]"); 808a354cdd0SMatthias Braun this->AllocationPriority = AllocationPriority; 8096a75041aSChristudasan Devadasan 8106a75041aSChristudasan Devadasan BitsInit *TSF = R->getValueAsBitsInit("TSFlags"); 8116a75041aSChristudasan Devadasan for (unsigned I = 0, E = TSF->getNumBits(); I != E; ++I) { 8126a75041aSChristudasan Devadasan BitInit *Bit = cast<BitInit>(TSF->getBit(I)); 8136a75041aSChristudasan Devadasan TSFlags |= uint8_t(Bit->getValue()) << I; 8146a75041aSChristudasan Devadasan } 81568d6d8abSJakob Stoklund Olesen } 81668d6d8abSJakob Stoklund Olesen 81703efe84dSJakob Stoklund Olesen // Create an inferred register class that was missing from the .td files. 81803efe84dSJakob Stoklund Olesen // Most properties will be inherited from the closest super-class after the 81903efe84dSJakob Stoklund Olesen // class structure has been computed. 820eebd5bc6SJakob Stoklund Olesen CodeGenRegisterClass::CodeGenRegisterClass(CodeGenRegBank &RegBank, 821eebd5bc6SJakob Stoklund Olesen StringRef Name, Key Props) 822adcd0268SBenjamin Kramer : Members(*Props.Members), TheDef(nullptr), Name(std::string(Name)), 823adcd0268SBenjamin Kramer TopoSigs(RegBank.getNumTopoSigs()), EnumValue(-1), RSI(Props.RSI), 8246a75041aSChristudasan Devadasan CopyCost(0), Allocatable(true), AllocationPriority(0), TSFlags(0) { 825eb0c510eSKrzysztof Parzyszek Artificial = true; 8268e760e10SStanislav Mekhanoshin GeneratePressureSet = false; 827eb0c510eSKrzysztof Parzyszek for (const auto R : Members) { 828be2edf30SOwen Anderson TopoSigs.set(R->getTopoSig()); 829eb0c510eSKrzysztof Parzyszek Artificial &= R->Artificial; 830eb0c510eSKrzysztof Parzyszek } 83103efe84dSJakob Stoklund Olesen } 83203efe84dSJakob Stoklund Olesen 83303efe84dSJakob Stoklund Olesen // Compute inherited propertied for a synthesized register class. 83403efe84dSJakob Stoklund Olesen void CodeGenRegisterClass::inheritProperties(CodeGenRegBank &RegBank) { 83503efe84dSJakob Stoklund Olesen assert(!getDef() && "Only synthesized classes can inherit properties"); 83603efe84dSJakob Stoklund Olesen assert(!SuperClasses.empty() && "Synthesized class without super class"); 83703efe84dSJakob Stoklund Olesen 83803efe84dSJakob Stoklund Olesen // The last super-class is the smallest one. 83903efe84dSJakob Stoklund Olesen CodeGenRegisterClass &Super = *SuperClasses.back(); 84003efe84dSJakob Stoklund Olesen 84103efe84dSJakob Stoklund Olesen // Most properties are copied directly. 84203efe84dSJakob Stoklund Olesen // Exceptions are members, size, and alignment 84303efe84dSJakob Stoklund Olesen Namespace = Super.Namespace; 84403efe84dSJakob Stoklund Olesen VTs = Super.VTs; 84503efe84dSJakob Stoklund Olesen CopyCost = Super.CopyCost; 846f5917e03SCarl Ritson // Check for allocatable superclasses. 847f5917e03SCarl Ritson Allocatable = any_of(SuperClasses, [&](const CodeGenRegisterClass *S) { 848f5917e03SCarl Ritson return S->Allocatable; 849f5917e03SCarl Ritson }); 85003efe84dSJakob Stoklund Olesen AltOrderSelect = Super.AltOrderSelect; 851d5fa8fb1SMatthias Braun AllocationPriority = Super.AllocationPriority; 8526a75041aSChristudasan Devadasan TSFlags = Super.TSFlags; 8538e760e10SStanislav Mekhanoshin GeneratePressureSet |= Super.GeneratePressureSet; 85403efe84dSJakob Stoklund Olesen 85503efe84dSJakob Stoklund Olesen // Copy all allocation orders, filter out foreign registers from the larger 85603efe84dSJakob Stoklund Olesen // super-class. 85703efe84dSJakob Stoklund Olesen Orders.resize(Super.Orders.size()); 85803efe84dSJakob Stoklund Olesen for (unsigned i = 0, ie = Super.Orders.size(); i != ie; ++i) 85903efe84dSJakob Stoklund Olesen for (unsigned j = 0, je = Super.Orders[i].size(); j != je; ++j) 86003efe84dSJakob Stoklund Olesen if (contains(RegBank.getReg(Super.Orders[i][j]))) 86103efe84dSJakob Stoklund Olesen Orders[i].push_back(Super.Orders[i][j]); 86203efe84dSJakob Stoklund Olesen } 86303efe84dSJakob Stoklund Olesen 864d7bc5c26SJakob Stoklund Olesen bool CodeGenRegisterClass::contains(const CodeGenRegister *Reg) const { 865be2edf30SOwen Anderson return std::binary_search(Members.begin(), Members.end(), Reg, 866d5aecb94SBenjamin Kramer deref<std::less<>>()); 867d7bc5c26SJakob Stoklund Olesen } 868d7bc5c26SJakob Stoklund Olesen 869922197d6SStanislav Mekhanoshin unsigned CodeGenRegisterClass::getWeight(const CodeGenRegBank& RegBank) const { 870922197d6SStanislav Mekhanoshin if (TheDef && !TheDef->isValueUnset("Weight")) 871922197d6SStanislav Mekhanoshin return TheDef->getValueAsInt("Weight"); 872922197d6SStanislav Mekhanoshin 873922197d6SStanislav Mekhanoshin if (Members.empty() || Artificial) 874922197d6SStanislav Mekhanoshin return 0; 875922197d6SStanislav Mekhanoshin 876922197d6SStanislav Mekhanoshin return (*Members.begin())->getWeight(RegBank); 877922197d6SStanislav Mekhanoshin } 878922197d6SStanislav Mekhanoshin 87903efe84dSJakob Stoklund Olesen namespace llvm { 880a3fe70d2SEugene Zelenko 88103efe84dSJakob Stoklund Olesen raw_ostream &operator<<(raw_ostream &OS, const CodeGenRegisterClass::Key &K) { 8827725e497SKrzysztof Parzyszek OS << "{ " << K.RSI; 883be2edf30SOwen Anderson for (const auto R : *K.Members) 884be2edf30SOwen Anderson OS << ", " << R->getName(); 88503efe84dSJakob Stoklund Olesen return OS << " }"; 88603efe84dSJakob Stoklund Olesen } 887a3fe70d2SEugene Zelenko 888a3fe70d2SEugene Zelenko } // end namespace llvm 88903efe84dSJakob Stoklund Olesen 89003efe84dSJakob Stoklund Olesen // This is a simple lexicographical order that can be used to search for sets. 89103efe84dSJakob Stoklund Olesen // It is not the same as the topological order provided by TopoOrderRC. 89203efe84dSJakob Stoklund Olesen bool CodeGenRegisterClass::Key:: 89303efe84dSJakob Stoklund Olesen operator<(const CodeGenRegisterClass::Key &B) const { 89403efe84dSJakob Stoklund Olesen assert(Members && B.Members); 895779d98e1SKrzysztof Parzyszek return std::tie(*Members, RSI) < std::tie(*B.Members, B.RSI); 89603efe84dSJakob Stoklund Olesen } 89703efe84dSJakob Stoklund Olesen 898d7bc5c26SJakob Stoklund Olesen // Returns true if RC is a strict subclass. 899d7bc5c26SJakob Stoklund Olesen // RC is a sub-class of this class if it is a valid replacement for any 900d7bc5c26SJakob Stoklund Olesen // instruction operand where a register of this classis required. It must 901d7bc5c26SJakob Stoklund Olesen // satisfy these conditions: 902d7bc5c26SJakob Stoklund Olesen // 903d7bc5c26SJakob Stoklund Olesen // 1. All RC registers are also in this. 904d7bc5c26SJakob Stoklund Olesen // 2. The RC spill size must not be smaller than our spill size. 905d7bc5c26SJakob Stoklund Olesen // 3. RC spill alignment must be compatible with ours. 906d7bc5c26SJakob Stoklund Olesen // 9076417395dSJakob Stoklund Olesen static bool testSubClass(const CodeGenRegisterClass *A, 9086417395dSJakob Stoklund Olesen const CodeGenRegisterClass *B) { 909779d98e1SKrzysztof Parzyszek return A->RSI.isSubClassOf(B->RSI) && 9106417395dSJakob Stoklund Olesen std::includes(A->getMembers().begin(), A->getMembers().end(), 9116417395dSJakob Stoklund Olesen B->getMembers().begin(), B->getMembers().end(), 912d5aecb94SBenjamin Kramer deref<std::less<>>()); 913d7bc5c26SJakob Stoklund Olesen } 914d7bc5c26SJakob Stoklund Olesen 915c0fc173dSJakob Stoklund Olesen /// Sorting predicate for register classes. This provides a topological 916c0fc173dSJakob Stoklund Olesen /// ordering that arranges all register classes before their sub-classes. 917c0fc173dSJakob Stoklund Olesen /// 918c0fc173dSJakob Stoklund Olesen /// Register classes with the same registers, spill size, and alignment form a 919c0fc173dSJakob Stoklund Olesen /// clique. They will be ordered alphabetically. 920c0fc173dSJakob Stoklund Olesen /// 921dacea4bcSDavid Blaikie static bool TopoOrderRC(const CodeGenRegisterClass &PA, 922dacea4bcSDavid Blaikie const CodeGenRegisterClass &PB) { 923dacea4bcSDavid Blaikie auto *A = &PA; 924dacea4bcSDavid Blaikie auto *B = &PB; 925c0fc173dSJakob Stoklund Olesen if (A == B) 926a3fe70d2SEugene Zelenko return false; 927c0fc173dSJakob Stoklund Olesen 928779d98e1SKrzysztof Parzyszek if (A->RSI < B->RSI) 929dacea4bcSDavid Blaikie return true; 930779d98e1SKrzysztof Parzyszek if (A->RSI != B->RSI) 931dacea4bcSDavid Blaikie return false; 932c0fc173dSJakob Stoklund Olesen 9334fd600b6SJakob Stoklund Olesen // Order by descending set size. Note that the classes' allocation order may 9344fd600b6SJakob Stoklund Olesen // not have been computed yet. The Members set is always vaild. 9354fd600b6SJakob Stoklund Olesen if (A->getMembers().size() > B->getMembers().size()) 936dacea4bcSDavid Blaikie return true; 9374fd600b6SJakob Stoklund Olesen if (A->getMembers().size() < B->getMembers().size()) 938dacea4bcSDavid Blaikie return false; 9394fd600b6SJakob Stoklund Olesen 940c0fc173dSJakob Stoklund Olesen // Finally order by name as a tie breaker. 941dacea4bcSDavid Blaikie return StringRef(A->getName()) < B->getName(); 942c0fc173dSJakob Stoklund Olesen } 943c0fc173dSJakob Stoklund Olesen 944bd92dc60SJakob Stoklund Olesen std::string CodeGenRegisterClass::getQualifiedName() const { 945bd92dc60SJakob Stoklund Olesen if (Namespace.empty()) 946bd92dc60SJakob Stoklund Olesen return getName(); 947bd92dc60SJakob Stoklund Olesen else 948c05a1032SCraig Topper return (Namespace + "::" + getName()).str(); 94968d6d8abSJakob Stoklund Olesen } 95068d6d8abSJakob Stoklund Olesen 9512c024b2dSJakob Stoklund Olesen // Compute sub-classes of all register classes. 9522c024b2dSJakob Stoklund Olesen // Assume the classes are ordered topologically. 95303efe84dSJakob Stoklund Olesen void CodeGenRegisterClass::computeSubClasses(CodeGenRegBank &RegBank) { 954c0bb5cabSDavid Blaikie auto &RegClasses = RegBank.getRegClasses(); 95503efe84dSJakob Stoklund Olesen 9562c024b2dSJakob Stoklund Olesen // Visit backwards so sub-classes are seen first. 957c0bb5cabSDavid Blaikie for (auto I = RegClasses.rbegin(), E = RegClasses.rend(); I != E; ++I) { 958dacea4bcSDavid Blaikie CodeGenRegisterClass &RC = *I; 9592c024b2dSJakob Stoklund Olesen RC.SubClasses.resize(RegClasses.size()); 9602c024b2dSJakob Stoklund Olesen RC.SubClasses.set(RC.EnumValue); 961eb0c510eSKrzysztof Parzyszek if (RC.Artificial) 962eb0c510eSKrzysztof Parzyszek continue; 9632c024b2dSJakob Stoklund Olesen 9642c024b2dSJakob Stoklund Olesen // Normally, all subclasses have IDs >= rci, unless RC is part of a clique. 965c0bb5cabSDavid Blaikie for (auto I2 = I.base(), E2 = RegClasses.end(); I2 != E2; ++I2) { 966dacea4bcSDavid Blaikie CodeGenRegisterClass &SubRC = *I2; 967c0bb5cabSDavid Blaikie if (RC.SubClasses.test(SubRC.EnumValue)) 9682c024b2dSJakob Stoklund Olesen continue; 969c0bb5cabSDavid Blaikie if (!testSubClass(&RC, &SubRC)) 9702c024b2dSJakob Stoklund Olesen continue; 9712c024b2dSJakob Stoklund Olesen // SubRC is a sub-class. Grap all its sub-classes so we won't have to 9722c024b2dSJakob Stoklund Olesen // check them again. 973c0bb5cabSDavid Blaikie RC.SubClasses |= SubRC.SubClasses; 9742c024b2dSJakob Stoklund Olesen } 9752c024b2dSJakob Stoklund Olesen 976bde91766SBenjamin Kramer // Sweep up missed clique members. They will be immediately preceding RC. 977dacea4bcSDavid Blaikie for (auto I2 = std::next(I); I2 != E && testSubClass(&RC, &*I2); ++I2) 978dacea4bcSDavid Blaikie RC.SubClasses.set(I2->EnumValue); 9792c024b2dSJakob Stoklund Olesen } 980b15fad9dSJakob Stoklund Olesen 981b15fad9dSJakob Stoklund Olesen // Compute the SuperClasses lists from the SubClasses vectors. 982dacea4bcSDavid Blaikie for (auto &RC : RegClasses) { 983dacea4bcSDavid Blaikie const BitVector &SC = RC.getSubClasses(); 984c0bb5cabSDavid Blaikie auto I = RegClasses.begin(); 985c0bb5cabSDavid Blaikie for (int s = 0, next_s = SC.find_first(); next_s != -1; 986c0bb5cabSDavid Blaikie next_s = SC.find_next(s)) { 987c0bb5cabSDavid Blaikie std::advance(I, next_s - s); 988c0bb5cabSDavid Blaikie s = next_s; 989dacea4bcSDavid Blaikie if (&*I == &RC) 990b15fad9dSJakob Stoklund Olesen continue; 991dacea4bcSDavid Blaikie I->SuperClasses.push_back(&RC); 992b15fad9dSJakob Stoklund Olesen } 993b15fad9dSJakob Stoklund Olesen } 99403efe84dSJakob Stoklund Olesen 99503efe84dSJakob Stoklund Olesen // With the class hierarchy in place, let synthesized register classes inherit 99603efe84dSJakob Stoklund Olesen // properties from their closest super-class. The iteration order here can 99703efe84dSJakob Stoklund Olesen // propagate properties down multiple levels. 998dacea4bcSDavid Blaikie for (auto &RC : RegClasses) 999dacea4bcSDavid Blaikie if (!RC.getDef()) 1000dacea4bcSDavid Blaikie RC.inheritProperties(RegBank); 10012c024b2dSJakob Stoklund Olesen } 10022c024b2dSJakob Stoklund Olesen 1003cc36dbf5SDaniel Sanders Optional<std::pair<CodeGenRegisterClass *, CodeGenRegisterClass *>> 1004cc36dbf5SDaniel Sanders CodeGenRegisterClass::getMatchingSubClassWithSubRegs( 1005cc36dbf5SDaniel Sanders CodeGenRegBank &RegBank, const CodeGenSubRegIndex *SubIdx) const { 1006d8328c0bSMatt Arsenault auto SizeOrder = [this](const CodeGenRegisterClass *A, 1007cc36dbf5SDaniel Sanders const CodeGenRegisterClass *B) { 1008d8328c0bSMatt Arsenault // If there are multiple, identical register classes, prefer the original 1009d8328c0bSMatt Arsenault // register class. 101038ecd616STa-Wei Tu if (A == B) 101138ecd616STa-Wei Tu return false; 1012d8328c0bSMatt Arsenault if (A->getMembers().size() == B->getMembers().size()) 1013d8328c0bSMatt Arsenault return A == this; 101422322fb6SDavid Green return A->getMembers().size() > B->getMembers().size(); 1015cc36dbf5SDaniel Sanders }; 1016cc36dbf5SDaniel Sanders 1017cc36dbf5SDaniel Sanders auto &RegClasses = RegBank.getRegClasses(); 1018cc36dbf5SDaniel Sanders 1019cc36dbf5SDaniel Sanders // Find all the subclasses of this one that fully support the sub-register 1020cc36dbf5SDaniel Sanders // index and order them by size. BiggestSuperRC should always be first. 1021cc36dbf5SDaniel Sanders CodeGenRegisterClass *BiggestSuperRegRC = getSubClassWithSubReg(SubIdx); 1022cc36dbf5SDaniel Sanders if (!BiggestSuperRegRC) 1023cc36dbf5SDaniel Sanders return None; 1024cc36dbf5SDaniel Sanders BitVector SuperRegRCsBV = BiggestSuperRegRC->getSubClasses(); 1025cc36dbf5SDaniel Sanders std::vector<CodeGenRegisterClass *> SuperRegRCs; 1026cc36dbf5SDaniel Sanders for (auto &RC : RegClasses) 1027cc36dbf5SDaniel Sanders if (SuperRegRCsBV[RC.EnumValue]) 1028cc36dbf5SDaniel Sanders SuperRegRCs.emplace_back(&RC); 1029d2a9b87fSMatt Arsenault llvm::stable_sort(SuperRegRCs, SizeOrder); 1030d8328c0bSMatt Arsenault 1031d8328c0bSMatt Arsenault assert(SuperRegRCs.front() == BiggestSuperRegRC && 1032d8328c0bSMatt Arsenault "Biggest class wasn't first"); 1033cc36dbf5SDaniel Sanders 1034cc36dbf5SDaniel Sanders // Find all the subreg classes and order them by size too. 1035cc36dbf5SDaniel Sanders std::vector<std::pair<CodeGenRegisterClass *, BitVector>> SuperRegClasses; 1036cc36dbf5SDaniel Sanders for (auto &RC: RegClasses) { 1037cc36dbf5SDaniel Sanders BitVector SuperRegClassesBV(RegClasses.size()); 1038cc36dbf5SDaniel Sanders RC.getSuperRegClasses(SubIdx, SuperRegClassesBV); 1039cc36dbf5SDaniel Sanders if (SuperRegClassesBV.any()) 1040cc36dbf5SDaniel Sanders SuperRegClasses.push_back(std::make_pair(&RC, SuperRegClassesBV)); 1041cc36dbf5SDaniel Sanders } 10420cac726aSFangrui Song llvm::sort(SuperRegClasses, 1043cc36dbf5SDaniel Sanders [&](const std::pair<CodeGenRegisterClass *, BitVector> &A, 1044cc36dbf5SDaniel Sanders const std::pair<CodeGenRegisterClass *, BitVector> &B) { 1045cc36dbf5SDaniel Sanders return SizeOrder(A.first, B.first); 1046cc36dbf5SDaniel Sanders }); 1047cc36dbf5SDaniel Sanders 1048cc36dbf5SDaniel Sanders // Find the biggest subclass and subreg class such that R:subidx is in the 1049cc36dbf5SDaniel Sanders // subreg class for all R in subclass. 1050cc36dbf5SDaniel Sanders // 1051cc36dbf5SDaniel Sanders // For example: 1052cc36dbf5SDaniel Sanders // All registers in X86's GR64 have a sub_32bit subregister but no class 1053cc36dbf5SDaniel Sanders // exists that contains all the 32-bit subregisters because GR64 contains RIP 1054cc36dbf5SDaniel Sanders // but GR32 does not contain EIP. Instead, we constrain SuperRegRC to 1055cc36dbf5SDaniel Sanders // GR32_with_sub_8bit (which is identical to GR32_with_sub_32bit) and then, 1056cc36dbf5SDaniel Sanders // having excluded RIP, we are able to find a SubRegRC (GR32). 1057cc36dbf5SDaniel Sanders CodeGenRegisterClass *ChosenSuperRegClass = nullptr; 1058cc36dbf5SDaniel Sanders CodeGenRegisterClass *SubRegRC = nullptr; 1059cc36dbf5SDaniel Sanders for (auto *SuperRegRC : SuperRegRCs) { 1060cc36dbf5SDaniel Sanders for (const auto &SuperRegClassPair : SuperRegClasses) { 1061cc36dbf5SDaniel Sanders const BitVector &SuperRegClassBV = SuperRegClassPair.second; 1062cc36dbf5SDaniel Sanders if (SuperRegClassBV[SuperRegRC->EnumValue]) { 1063cc36dbf5SDaniel Sanders SubRegRC = SuperRegClassPair.first; 1064cc36dbf5SDaniel Sanders ChosenSuperRegClass = SuperRegRC; 1065cc36dbf5SDaniel Sanders 1066cc36dbf5SDaniel Sanders // If SubRegRC is bigger than SuperRegRC then there are members of 1067cc36dbf5SDaniel Sanders // SubRegRC that don't have super registers via SubIdx. Keep looking to 1068cc36dbf5SDaniel Sanders // find a better fit and fall back on this one if there isn't one. 1069cc36dbf5SDaniel Sanders // 1070cc36dbf5SDaniel Sanders // This is intended to prevent X86 from making odd choices such as 1071cc36dbf5SDaniel Sanders // picking LOW32_ADDR_ACCESS_RBP instead of GR32 in the example above. 1072cc36dbf5SDaniel Sanders // LOW32_ADDR_ACCESS_RBP is a valid choice but contains registers that 1073cc36dbf5SDaniel Sanders // aren't subregisters of SuperRegRC whereas GR32 has a direct 1:1 1074cc36dbf5SDaniel Sanders // mapping. 1075cc36dbf5SDaniel Sanders if (SuperRegRC->getMembers().size() >= SubRegRC->getMembers().size()) 1076cc36dbf5SDaniel Sanders return std::make_pair(ChosenSuperRegClass, SubRegRC); 1077cc36dbf5SDaniel Sanders } 1078cc36dbf5SDaniel Sanders } 1079cc36dbf5SDaniel Sanders 1080cc36dbf5SDaniel Sanders // If we found a fit but it wasn't quite ideal because SubRegRC had excess 1081cc36dbf5SDaniel Sanders // registers, then we're done. 1082cc36dbf5SDaniel Sanders if (ChosenSuperRegClass) 1083cc36dbf5SDaniel Sanders return std::make_pair(ChosenSuperRegClass, SubRegRC); 1084cc36dbf5SDaniel Sanders } 1085cc36dbf5SDaniel Sanders 1086cc36dbf5SDaniel Sanders return None; 1087cc36dbf5SDaniel Sanders } 1088cc36dbf5SDaniel Sanders 10898f25d3bcSDavid Blaikie void CodeGenRegisterClass::getSuperRegClasses(const CodeGenSubRegIndex *SubIdx, 1090f1bb1519SJakob Stoklund Olesen BitVector &Out) const { 10918f25d3bcSDavid Blaikie auto FindI = SuperRegClasses.find(SubIdx); 1092c7b437aeSJakob Stoklund Olesen if (FindI == SuperRegClasses.end()) 1093c7b437aeSJakob Stoklund Olesen return; 10944627679cSCraig Topper for (CodeGenRegisterClass *RC : FindI->second) 10954627679cSCraig Topper Out.set(RC->EnumValue); 1096c7b437aeSJakob Stoklund Olesen } 1097c7b437aeSJakob Stoklund Olesen 109897254150SAndrew Trick // Populate a unique sorted list of units from a register set. 1099eb0c510eSKrzysztof Parzyszek void CodeGenRegisterClass::buildRegUnitSet(const CodeGenRegBank &RegBank, 110097254150SAndrew Trick std::vector<unsigned> &RegUnits) const { 110197254150SAndrew Trick std::vector<unsigned> TmpUnits; 1102eb0c510eSKrzysztof Parzyszek for (RegUnitIterator UnitI(Members); UnitI.isValid(); ++UnitI) { 1103eb0c510eSKrzysztof Parzyszek const RegUnit &RU = RegBank.getRegUnit(*UnitI); 1104eb0c510eSKrzysztof Parzyszek if (!RU.Artificial) 110597254150SAndrew Trick TmpUnits.push_back(*UnitI); 1106eb0c510eSKrzysztof Parzyszek } 11070cac726aSFangrui Song llvm::sort(TmpUnits); 110897254150SAndrew Trick std::unique_copy(TmpUnits.begin(), TmpUnits.end(), 110997254150SAndrew Trick std::back_inserter(RegUnits)); 111097254150SAndrew Trick } 1111c7b437aeSJakob Stoklund Olesen 111276a5a71eSJakob Stoklund Olesen //===----------------------------------------------------------------------===// 1113deaf22bcSBill Wendling // CodeGenRegisterCategory 1114deaf22bcSBill Wendling //===----------------------------------------------------------------------===// 1115deaf22bcSBill Wendling 1116deaf22bcSBill Wendling CodeGenRegisterCategory::CodeGenRegisterCategory(CodeGenRegBank &RegBank, 1117deaf22bcSBill Wendling Record *R) 1118deaf22bcSBill Wendling : TheDef(R), Name(std::string(R->getName())) { 1119deaf22bcSBill Wendling for (Record *RegClass : R->getValueAsListOfDefs("Classes")) 1120deaf22bcSBill Wendling Classes.push_back(RegBank.getRegClass(RegClass)); 1121deaf22bcSBill Wendling } 1122deaf22bcSBill Wendling 1123deaf22bcSBill Wendling //===----------------------------------------------------------------------===// 112476a5a71eSJakob Stoklund Olesen // CodeGenRegBank 112576a5a71eSJakob Stoklund Olesen //===----------------------------------------------------------------------===// 112676a5a71eSJakob Stoklund Olesen 1127779d98e1SKrzysztof Parzyszek CodeGenRegBank::CodeGenRegBank(RecordKeeper &Records, 1128779d98e1SKrzysztof Parzyszek const CodeGenHwModes &Modes) : CGH(Modes) { 11293bd1b65eSJakob Stoklund Olesen // Configure register Sets to understand register classes and tuples. 11305ee87726SJakob Stoklund Olesen Sets.addFieldExpander("RegisterClass", "MemberList"); 1131c3abb0f6SJakob Stoklund Olesen Sets.addFieldExpander("CalleeSavedRegs", "SaveList"); 11326c21b3b5SFlorian Hahn Sets.addExpander("RegisterTuples", 11330eaee545SJonas Devlieghere std::make_unique<TupleExpander>(SynthDefs)); 11345ee87726SJakob Stoklund Olesen 113584bd44ebSJakob Stoklund Olesen // Read in the user-defined (named) sub-register indices. 113684bd44ebSJakob Stoklund Olesen // More indices will be synthesized later. 1137f1bb1519SJakob Stoklund Olesen std::vector<Record*> SRIs = Records.getAllDerivedDefinitions("SubRegIndex"); 11380cac726aSFangrui Song llvm::sort(SRIs, LessRecord()); 1139f1bb1519SJakob Stoklund Olesen for (unsigned i = 0, e = SRIs.size(); i != e; ++i) 1140f1bb1519SJakob Stoklund Olesen getSubRegIdx(SRIs[i]); 114121231609SJakob Stoklund Olesen // Build composite maps from ComposedOf fields. 11428f25d3bcSDavid Blaikie for (auto &Idx : SubRegIndices) 11435be6699cSDavid Blaikie Idx.updateComponents(*this); 114484bd44ebSJakob Stoklund Olesen 114584bd44ebSJakob Stoklund Olesen // Read in the register definitions. 114684bd44ebSJakob Stoklund Olesen std::vector<Record*> Regs = Records.getAllDerivedDefinitions("Register"); 11470cac726aSFangrui Song llvm::sort(Regs, LessRecordRegister()); 114884bd44ebSJakob Stoklund Olesen // Assign the enumeration values. 114984bd44ebSJakob Stoklund Olesen for (unsigned i = 0, e = Regs.size(); i != e; ++i) 11508e188be0SJakob Stoklund Olesen getReg(Regs[i]); 115122ea424dSJakob Stoklund Olesen 11523bd1b65eSJakob Stoklund Olesen // Expand tuples and number the new registers. 11533bd1b65eSJakob Stoklund Olesen std::vector<Record*> Tups = 11543bd1b65eSJakob Stoklund Olesen Records.getAllDerivedDefinitions("RegisterTuples"); 1155ccd06643SChad Rosier 11567405608cSDavid Blaikie for (Record *R : Tups) { 11577405608cSDavid Blaikie std::vector<Record *> TupRegs = *Sets.expand(R); 11580cac726aSFangrui Song llvm::sort(TupRegs, LessRecordRegister()); 11597405608cSDavid Blaikie for (Record *RC : TupRegs) 11607405608cSDavid Blaikie getReg(RC); 11613bd1b65eSJakob Stoklund Olesen } 11623bd1b65eSJakob Stoklund Olesen 1163c1e9087fSJakob Stoklund Olesen // Now all the registers are known. Build the object graph of explicit 1164c1e9087fSJakob Stoklund Olesen // register-register references. 11659b613dbaSDavid Blaikie for (auto &Reg : Registers) 11669b613dbaSDavid Blaikie Reg.buildObjectGraph(*this); 1167c1e9087fSJakob Stoklund Olesen 1168ccd682c6SOwen Anderson // Compute register name map. 11699b613dbaSDavid Blaikie for (auto &Reg : Registers) 11705106ce78SDavid Blaikie // FIXME: This could just be RegistersByName[name] = register, except that 11715106ce78SDavid Blaikie // causes some failures in MIPS - perhaps they have duplicate register name 11725106ce78SDavid Blaikie // entries? (or maybe there's a reason for it - I don't know much about this 11735106ce78SDavid Blaikie // code, just drive-by refactoring) 11749b613dbaSDavid Blaikie RegistersByName.insert( 11759b613dbaSDavid Blaikie std::make_pair(Reg.TheDef->getValueAsString("AsmName"), &Reg)); 1176ccd682c6SOwen Anderson 1177c1e9087fSJakob Stoklund Olesen // Precompute all sub-register maps. 117803efe84dSJakob Stoklund Olesen // This will create Composite entries for all inferred sub-register indices. 11799b613dbaSDavid Blaikie for (auto &Reg : Registers) 11809b613dbaSDavid Blaikie Reg.computeSubRegs(*this); 118103efe84dSJakob Stoklund Olesen 1182afcff2d0SMatthias Braun // Compute transitive closure of subregister index ConcatenationOf vectors 1183afcff2d0SMatthias Braun // and initialize ConcatIdx map. 1184afcff2d0SMatthias Braun for (CodeGenSubRegIndex &SRI : SubRegIndices) { 1185afcff2d0SMatthias Braun SRI.computeConcatTransitiveClosure(); 1186afcff2d0SMatthias Braun if (!SRI.ConcatenationOf.empty()) 11873923b319SMatthias Braun ConcatIdx.insert(std::make_pair( 11883923b319SMatthias Braun SmallVector<CodeGenSubRegIndex*,8>(SRI.ConcatenationOf.begin(), 11893923b319SMatthias Braun SRI.ConcatenationOf.end()), &SRI)); 1190afcff2d0SMatthias Braun } 1191afcff2d0SMatthias Braun 1192c08df9e5SJakob Stoklund Olesen // Infer even more sub-registers by combining leading super-registers. 11939b613dbaSDavid Blaikie for (auto &Reg : Registers) 11949b613dbaSDavid Blaikie if (Reg.CoveredBySubRegs) 11959b613dbaSDavid Blaikie Reg.computeSecondarySubRegs(*this); 1196c08df9e5SJakob Stoklund Olesen 11973f3eb180SJakob Stoklund Olesen // After the sub-register graph is complete, compute the topologically 11983f3eb180SJakob Stoklund Olesen // ordered SuperRegs list. 11999b613dbaSDavid Blaikie for (auto &Reg : Registers) 12009b613dbaSDavid Blaikie Reg.computeSuperRegs(*this); 12013f3eb180SJakob Stoklund Olesen 1202eb0c510eSKrzysztof Parzyszek // For each pair of Reg:SR, if both are non-artificial, mark the 1203eb0c510eSKrzysztof Parzyszek // corresponding sub-register index as non-artificial. 1204eb0c510eSKrzysztof Parzyszek for (auto &Reg : Registers) { 1205eb0c510eSKrzysztof Parzyszek if (Reg.Artificial) 1206eb0c510eSKrzysztof Parzyszek continue; 1207eb0c510eSKrzysztof Parzyszek for (auto P : Reg.getSubRegs()) { 1208eb0c510eSKrzysztof Parzyszek const CodeGenRegister *SR = P.second; 1209eb0c510eSKrzysztof Parzyszek if (!SR->Artificial) 1210eb0c510eSKrzysztof Parzyszek P.first->Artificial = false; 1211eb0c510eSKrzysztof Parzyszek } 1212eb0c510eSKrzysztof Parzyszek } 1213eb0c510eSKrzysztof Parzyszek 12141d7a2c57SAndrew Trick // Native register units are associated with a leaf register. They've all been 12151d7a2c57SAndrew Trick // discovered now. 1216095f22afSJakob Stoklund Olesen NumNativeRegUnits = RegUnits.size(); 12171d7a2c57SAndrew Trick 121822ea424dSJakob Stoklund Olesen // Read in register class definitions. 121922ea424dSJakob Stoklund Olesen std::vector<Record*> RCs = Records.getAllDerivedDefinitions("RegisterClass"); 122022ea424dSJakob Stoklund Olesen if (RCs.empty()) 122148e7e85dSBenjamin Kramer PrintFatalError("No 'RegisterClass' subclasses defined!"); 122222ea424dSJakob Stoklund Olesen 122303efe84dSJakob Stoklund Olesen // Allocate user-defined register classes. 1224eb0c510eSKrzysztof Parzyszek for (auto *R : RCs) { 1225eb0c510eSKrzysztof Parzyszek RegClasses.emplace_back(*this, R); 1226eb0c510eSKrzysztof Parzyszek CodeGenRegisterClass &RC = RegClasses.back(); 1227eb0c510eSKrzysztof Parzyszek if (!RC.Artificial) 1228eb0c510eSKrzysztof Parzyszek addToMaps(&RC); 1229c0bb5cabSDavid Blaikie } 123003efe84dSJakob Stoklund Olesen 123103efe84dSJakob Stoklund Olesen // Infer missing classes to create a full algebra. 123203efe84dSJakob Stoklund Olesen computeInferredRegisterClasses(); 123303efe84dSJakob Stoklund Olesen 1234c0fc173dSJakob Stoklund Olesen // Order register classes topologically and assign enum values. 1235dacea4bcSDavid Blaikie RegClasses.sort(TopoOrderRC); 1236c0bb5cabSDavid Blaikie unsigned i = 0; 1237dacea4bcSDavid Blaikie for (auto &RC : RegClasses) 1238dacea4bcSDavid Blaikie RC.EnumValue = i++; 123903efe84dSJakob Stoklund Olesen CodeGenRegisterClass::computeSubClasses(*this); 1240deaf22bcSBill Wendling 1241deaf22bcSBill Wendling // Read in the register category definitions. 1242deaf22bcSBill Wendling std::vector<Record *> RCats = 1243deaf22bcSBill Wendling Records.getAllDerivedDefinitions("RegisterCategory"); 1244deaf22bcSBill Wendling for (auto *R : RCats) 1245deaf22bcSBill Wendling RegCategories.emplace_back(*this, R); 124676a5a71eSJakob Stoklund Olesen } 124776a5a71eSJakob Stoklund Olesen 124870a0bbcaSJakob Stoklund Olesen // Create a synthetic CodeGenSubRegIndex without a corresponding Record. 124970a0bbcaSJakob Stoklund Olesen CodeGenSubRegIndex* 125070a0bbcaSJakob Stoklund Olesen CodeGenRegBank::createSubRegIndex(StringRef Name, StringRef Namespace) { 12515be6699cSDavid Blaikie SubRegIndices.emplace_back(Name, Namespace, SubRegIndices.size() + 1); 12525be6699cSDavid Blaikie return &SubRegIndices.back(); 125370a0bbcaSJakob Stoklund Olesen } 125470a0bbcaSJakob Stoklund Olesen 1255f1bb1519SJakob Stoklund Olesen CodeGenSubRegIndex *CodeGenRegBank::getSubRegIdx(Record *Def) { 1256f1bb1519SJakob Stoklund Olesen CodeGenSubRegIndex *&Idx = Def2SubRegIdx[Def]; 1257f1bb1519SJakob Stoklund Olesen if (Idx) 1258f1bb1519SJakob Stoklund Olesen return Idx; 12595be6699cSDavid Blaikie SubRegIndices.emplace_back(Def, SubRegIndices.size() + 1); 12605be6699cSDavid Blaikie Idx = &SubRegIndices.back(); 1261f1bb1519SJakob Stoklund Olesen return Idx; 1262f1bb1519SJakob Stoklund Olesen } 1263f1bb1519SJakob Stoklund Olesen 1264f8d044bbSStanislav Mekhanoshin const CodeGenSubRegIndex * 1265f8d044bbSStanislav Mekhanoshin CodeGenRegBank::findSubRegIdx(const Record* Def) const { 1266bea8d021SKazu Hirata return Def2SubRegIdx.lookup(Def); 1267f8d044bbSStanislav Mekhanoshin } 1268f8d044bbSStanislav Mekhanoshin 126984bd44ebSJakob Stoklund Olesen CodeGenRegister *CodeGenRegBank::getReg(Record *Def) { 12708e188be0SJakob Stoklund Olesen CodeGenRegister *&Reg = Def2Reg[Def]; 12718e188be0SJakob Stoklund Olesen if (Reg) 127284bd44ebSJakob Stoklund Olesen return Reg; 12739b613dbaSDavid Blaikie Registers.emplace_back(Def, Registers.size() + 1); 12749b613dbaSDavid Blaikie Reg = &Registers.back(); 12758e188be0SJakob Stoklund Olesen return Reg; 127684bd44ebSJakob Stoklund Olesen } 127784bd44ebSJakob Stoklund Olesen 127803efe84dSJakob Stoklund Olesen void CodeGenRegBank::addToMaps(CodeGenRegisterClass *RC) { 127903efe84dSJakob Stoklund Olesen if (Record *Def = RC->getDef()) 128003efe84dSJakob Stoklund Olesen Def2RC.insert(std::make_pair(Def, RC)); 128103efe84dSJakob Stoklund Olesen 128203efe84dSJakob Stoklund Olesen // Duplicate classes are rejected by insert(). 128303efe84dSJakob Stoklund Olesen // That's OK, we only care about the properties handled by CGRC::Key. 128403efe84dSJakob Stoklund Olesen CodeGenRegisterClass::Key K(*RC); 128503efe84dSJakob Stoklund Olesen Key2RC.insert(std::make_pair(K, RC)); 128603efe84dSJakob Stoklund Olesen } 128703efe84dSJakob Stoklund Olesen 12887ebc6b05SJakob Stoklund Olesen // Create a synthetic sub-class if it is missing. 12897ebc6b05SJakob Stoklund Olesen CodeGenRegisterClass* 12907ebc6b05SJakob Stoklund Olesen CodeGenRegBank::getOrCreateSubClass(const CodeGenRegisterClass *RC, 1291be2edf30SOwen Anderson const CodeGenRegister::Vec *Members, 12927ebc6b05SJakob Stoklund Olesen StringRef Name) { 12937ebc6b05SJakob Stoklund Olesen // Synthetic sub-class has the same size and alignment as RC. 1294779d98e1SKrzysztof Parzyszek CodeGenRegisterClass::Key K(Members, RC->RSI); 12957ebc6b05SJakob Stoklund Olesen RCKeyMap::const_iterator FoundI = Key2RC.find(K); 12967ebc6b05SJakob Stoklund Olesen if (FoundI != Key2RC.end()) 12977ebc6b05SJakob Stoklund Olesen return FoundI->second; 12987ebc6b05SJakob Stoklund Olesen 12997ebc6b05SJakob Stoklund Olesen // Sub-class doesn't exist, create a new one. 1300f5e2fc47SBenjamin Kramer RegClasses.emplace_back(*this, Name, K); 1301dacea4bcSDavid Blaikie addToMaps(&RegClasses.back()); 1302dacea4bcSDavid Blaikie return &RegClasses.back(); 13037ebc6b05SJakob Stoklund Olesen } 13047ebc6b05SJakob Stoklund Olesen 1305e225e770Slewis-revill CodeGenRegisterClass *CodeGenRegBank::getRegClass(const Record *Def) const { 1306e225e770Slewis-revill if (CodeGenRegisterClass *RC = Def2RC.lookup(Def)) 130722ea424dSJakob Stoklund Olesen return RC; 130822ea424dSJakob Stoklund Olesen 1309635debe8SJoerg Sonnenberger PrintFatalError(Def->getLoc(), "Not a known RegisterClass!"); 131022ea424dSJakob Stoklund Olesen } 131122ea424dSJakob Stoklund Olesen 1312f1bb1519SJakob Stoklund Olesen CodeGenSubRegIndex* 1313f1bb1519SJakob Stoklund Olesen CodeGenRegBank::getCompositeSubRegIndex(CodeGenSubRegIndex *A, 13149a44ad70SJakob Stoklund Olesen CodeGenSubRegIndex *B) { 131584bd44ebSJakob Stoklund Olesen // Look for an existing entry. 13169a44ad70SJakob Stoklund Olesen CodeGenSubRegIndex *Comp = A->compose(B); 13179a44ad70SJakob Stoklund Olesen if (Comp) 131884bd44ebSJakob Stoklund Olesen return Comp; 131984bd44ebSJakob Stoklund Olesen 132084bd44ebSJakob Stoklund Olesen // None exists, synthesize one. 132176a5a71eSJakob Stoklund Olesen std::string Name = A->getName() + "_then_" + B->getName(); 132270a0bbcaSJakob Stoklund Olesen Comp = createSubRegIndex(Name, A->getNamespace()); 13239a44ad70SJakob Stoklund Olesen A->addComposite(B, Comp); 132484bd44ebSJakob Stoklund Olesen return Comp; 132576a5a71eSJakob Stoklund Olesen } 132676a5a71eSJakob Stoklund Olesen 1327c08df9e5SJakob Stoklund Olesen CodeGenSubRegIndex *CodeGenRegBank:: 1328c08df9e5SJakob Stoklund Olesen getConcatSubRegIndex(const SmallVector<CodeGenSubRegIndex *, 8> &Parts) { 1329c08df9e5SJakob Stoklund Olesen assert(Parts.size() > 1 && "Need two parts to concatenate"); 1330afcff2d0SMatthias Braun #ifndef NDEBUG 1331afcff2d0SMatthias Braun for (CodeGenSubRegIndex *Idx : Parts) { 1332afcff2d0SMatthias Braun assert(Idx->ConcatenationOf.empty() && "No transitive closure?"); 1333afcff2d0SMatthias Braun } 1334afcff2d0SMatthias Braun #endif 1335c08df9e5SJakob Stoklund Olesen 1336c08df9e5SJakob Stoklund Olesen // Look for an existing entry. 1337c08df9e5SJakob Stoklund Olesen CodeGenSubRegIndex *&Idx = ConcatIdx[Parts]; 1338c08df9e5SJakob Stoklund Olesen if (Idx) 1339c08df9e5SJakob Stoklund Olesen return Idx; 1340c08df9e5SJakob Stoklund Olesen 1341c08df9e5SJakob Stoklund Olesen // None exists, synthesize one. 1342c08df9e5SJakob Stoklund Olesen std::string Name = Parts.front()->getName(); 1343b1a4d9daSAhmed Bougacha // Determine whether all parts are contiguous. 1344b1a4d9daSAhmed Bougacha bool isContinuous = true; 1345b1a4d9daSAhmed Bougacha unsigned Size = Parts.front()->Size; 1346b1a4d9daSAhmed Bougacha unsigned LastOffset = Parts.front()->Offset; 1347b1a4d9daSAhmed Bougacha unsigned LastSize = Parts.front()->Size; 1348c08df9e5SJakob Stoklund Olesen for (unsigned i = 1, e = Parts.size(); i != e; ++i) { 1349c08df9e5SJakob Stoklund Olesen Name += '_'; 1350c08df9e5SJakob Stoklund Olesen Name += Parts[i]->getName(); 1351b1a4d9daSAhmed Bougacha Size += Parts[i]->Size; 1352b1a4d9daSAhmed Bougacha if (Parts[i]->Offset != (LastOffset + LastSize)) 1353b1a4d9daSAhmed Bougacha isContinuous = false; 1354b1a4d9daSAhmed Bougacha LastOffset = Parts[i]->Offset; 1355b1a4d9daSAhmed Bougacha LastSize = Parts[i]->Size; 1356c08df9e5SJakob Stoklund Olesen } 1357b1a4d9daSAhmed Bougacha Idx = createSubRegIndex(Name, Parts.front()->getNamespace()); 1358b1a4d9daSAhmed Bougacha Idx->Size = Size; 1359b1a4d9daSAhmed Bougacha Idx->Offset = isContinuous ? Parts.front()->Offset : -1; 1360afcff2d0SMatthias Braun Idx->ConcatenationOf.assign(Parts.begin(), Parts.end()); 1361b1a4d9daSAhmed Bougacha return Idx; 1362c08df9e5SJakob Stoklund Olesen } 1363c08df9e5SJakob Stoklund Olesen 136484bd44ebSJakob Stoklund Olesen void CodeGenRegBank::computeComposites() { 1365a26a848dSKrzysztof Parzyszek using RegMap = std::map<const CodeGenRegister*, const CodeGenRegister*>; 1366a26a848dSKrzysztof Parzyszek 1367a26a848dSKrzysztof Parzyszek // Subreg -> { Reg->Reg }, where the right-hand side is the mapping from 1368a26a848dSKrzysztof Parzyszek // register to (sub)register associated with the action of the left-hand 1369a26a848dSKrzysztof Parzyszek // side subregister. 1370a26a848dSKrzysztof Parzyszek std::map<const CodeGenSubRegIndex*, RegMap> SubRegAction; 1371a26a848dSKrzysztof Parzyszek for (const CodeGenRegister &R : Registers) { 1372a26a848dSKrzysztof Parzyszek const CodeGenRegister::SubRegMap &SM = R.getSubRegs(); 1373a26a848dSKrzysztof Parzyszek for (std::pair<const CodeGenSubRegIndex*, const CodeGenRegister*> P : SM) 1374a26a848dSKrzysztof Parzyszek SubRegAction[P.first].insert({&R, P.second}); 1375a26a848dSKrzysztof Parzyszek } 1376a26a848dSKrzysztof Parzyszek 1377a26a848dSKrzysztof Parzyszek // Calculate the composition of two subregisters as compositions of their 1378a26a848dSKrzysztof Parzyszek // associated actions. 1379a26a848dSKrzysztof Parzyszek auto compose = [&SubRegAction] (const CodeGenSubRegIndex *Sub1, 1380a26a848dSKrzysztof Parzyszek const CodeGenSubRegIndex *Sub2) { 1381a26a848dSKrzysztof Parzyszek RegMap C; 1382a26a848dSKrzysztof Parzyszek const RegMap &Img1 = SubRegAction.at(Sub1); 1383a26a848dSKrzysztof Parzyszek const RegMap &Img2 = SubRegAction.at(Sub2); 1384a26a848dSKrzysztof Parzyszek for (std::pair<const CodeGenRegister*, const CodeGenRegister*> P : Img1) { 1385a26a848dSKrzysztof Parzyszek auto F = Img2.find(P.second); 1386a26a848dSKrzysztof Parzyszek if (F != Img2.end()) 1387a26a848dSKrzysztof Parzyszek C.insert({P.first, F->second}); 1388a26a848dSKrzysztof Parzyszek } 1389a26a848dSKrzysztof Parzyszek return C; 1390a26a848dSKrzysztof Parzyszek }; 1391a26a848dSKrzysztof Parzyszek 1392a26a848dSKrzysztof Parzyszek // Check if the two maps agree on the intersection of their domains. 1393a26a848dSKrzysztof Parzyszek auto agree = [] (const RegMap &Map1, const RegMap &Map2) { 1394a26a848dSKrzysztof Parzyszek // Technically speaking, an empty map agrees with any other map, but 1395a26a848dSKrzysztof Parzyszek // this could flag false positives. We're interested in non-vacuous 1396a26a848dSKrzysztof Parzyszek // agreements. 1397a26a848dSKrzysztof Parzyszek if (Map1.empty() || Map2.empty()) 1398a26a848dSKrzysztof Parzyszek return false; 1399a26a848dSKrzysztof Parzyszek for (std::pair<const CodeGenRegister*, const CodeGenRegister*> P : Map1) { 1400a26a848dSKrzysztof Parzyszek auto F = Map2.find(P.first); 1401a26a848dSKrzysztof Parzyszek if (F == Map2.end() || P.second != F->second) 1402a26a848dSKrzysztof Parzyszek return false; 1403a26a848dSKrzysztof Parzyszek } 1404a26a848dSKrzysztof Parzyszek return true; 1405a26a848dSKrzysztof Parzyszek }; 1406a26a848dSKrzysztof Parzyszek 1407a26a848dSKrzysztof Parzyszek using CompositePair = std::pair<const CodeGenSubRegIndex*, 1408a26a848dSKrzysztof Parzyszek const CodeGenSubRegIndex*>; 1409a26a848dSKrzysztof Parzyszek SmallSet<CompositePair,4> UserDefined; 1410a26a848dSKrzysztof Parzyszek for (const CodeGenSubRegIndex &Idx : SubRegIndices) 1411a26a848dSKrzysztof Parzyszek for (auto P : Idx.getComposites()) 1412a26a848dSKrzysztof Parzyszek UserDefined.insert(std::make_pair(&Idx, P.first)); 1413a26a848dSKrzysztof Parzyszek 141450ecd0ffSJakob Stoklund Olesen // Keep track of TopoSigs visited. We only need to visit each TopoSig once, 141550ecd0ffSJakob Stoklund Olesen // and many registers will share TopoSigs on regular architectures. 141650ecd0ffSJakob Stoklund Olesen BitVector TopoSigs(getNumTopoSigs()); 141750ecd0ffSJakob Stoklund Olesen 14189b613dbaSDavid Blaikie for (const auto &Reg1 : Registers) { 141950ecd0ffSJakob Stoklund Olesen // Skip identical subreg structures already processed. 14209b613dbaSDavid Blaikie if (TopoSigs.test(Reg1.getTopoSig())) 142150ecd0ffSJakob Stoklund Olesen continue; 14229b613dbaSDavid Blaikie TopoSigs.set(Reg1.getTopoSig()); 142350ecd0ffSJakob Stoklund Olesen 14249b613dbaSDavid Blaikie const CodeGenRegister::SubRegMap &SRM1 = Reg1.getSubRegs(); 1425e6cf3d64SCoelacanthus for (auto I1 : SRM1) { 1426e6cf3d64SCoelacanthus CodeGenSubRegIndex *Idx1 = I1.first; 1427e6cf3d64SCoelacanthus CodeGenRegister *Reg2 = I1.second; 142884bd44ebSJakob Stoklund Olesen // Ignore identity compositions. 14299b613dbaSDavid Blaikie if (&Reg1 == Reg2) 143084bd44ebSJakob Stoklund Olesen continue; 1431d2b4713eSJakob Stoklund Olesen const CodeGenRegister::SubRegMap &SRM2 = Reg2->getSubRegs(); 143284bd44ebSJakob Stoklund Olesen // Try composing Idx1 with another SubRegIndex. 1433e6cf3d64SCoelacanthus for (auto I2 : SRM2) { 1434e6cf3d64SCoelacanthus CodeGenSubRegIndex *Idx2 = I2.first; 1435e6cf3d64SCoelacanthus CodeGenRegister *Reg3 = I2.second; 143684bd44ebSJakob Stoklund Olesen // Ignore identity compositions. 143784bd44ebSJakob Stoklund Olesen if (Reg2 == Reg3) 143884bd44ebSJakob Stoklund Olesen continue; 143984bd44ebSJakob Stoklund Olesen // OK Reg1:IdxPair == Reg3. Find the index with Reg:Idx == Reg3. 14409b613dbaSDavid Blaikie CodeGenSubRegIndex *Idx3 = Reg1.getSubRegIndex(Reg3); 14412d247c80SJakob Stoklund Olesen assert(Idx3 && "Sub-register doesn't have an index"); 14422d247c80SJakob Stoklund Olesen 144384bd44ebSJakob Stoklund Olesen // Conflicting composition? Emit a warning but allow it. 1444a26a848dSKrzysztof Parzyszek if (CodeGenSubRegIndex *Prev = Idx1->addComposite(Idx2, Idx3)) { 1445a26a848dSKrzysztof Parzyszek // If the composition was not user-defined, always emit a warning. 1446a26a848dSKrzysztof Parzyszek if (!UserDefined.count({Idx1, Idx2}) || 1447a26a848dSKrzysztof Parzyszek agree(compose(Idx1, Idx2), SubRegAction.at(Idx3))) 14489a7f4b76SJim Grosbach PrintWarning(Twine("SubRegIndex ") + Idx1->getQualifiedName() + 14499a7f4b76SJim Grosbach " and " + Idx2->getQualifiedName() + 14509a7f4b76SJim Grosbach " compose ambiguously as " + Prev->getQualifiedName() + 14512d247c80SJakob Stoklund Olesen " or " + Idx3->getQualifiedName()); 145284bd44ebSJakob Stoklund Olesen } 145384bd44ebSJakob Stoklund Olesen } 145484bd44ebSJakob Stoklund Olesen } 145584bd44ebSJakob Stoklund Olesen } 1456a26a848dSKrzysztof Parzyszek } 145784bd44ebSJakob Stoklund Olesen 1458d346d487SJakob Stoklund Olesen // Compute lane masks. This is similar to register units, but at the 1459d346d487SJakob Stoklund Olesen // sub-register index level. Each bit in the lane mask is like a register unit 1460d346d487SJakob Stoklund Olesen // class, and two lane masks will have a bit in common if two sub-register 1461d346d487SJakob Stoklund Olesen // indices overlap in some register. 1462d346d487SJakob Stoklund Olesen // 1463d346d487SJakob Stoklund Olesen // Conservatively share a lane mask bit if two sub-register indices overlap in 1464d346d487SJakob Stoklund Olesen // some registers, but not in others. That shouldn't happen a lot. 1465d01627b2SMatthias Braun void CodeGenRegBank::computeSubRegLaneMasks() { 1466d346d487SJakob Stoklund Olesen // First assign individual bits to all the leaf indices. 1467d346d487SJakob Stoklund Olesen unsigned Bit = 0; 14689ae96c7aSJakob Stoklund Olesen // Determine mask of lanes that cover their registers. 146991b5cf84SKrzysztof Parzyszek CoveringLanes = LaneBitmask::getAll(); 14708f25d3bcSDavid Blaikie for (auto &Idx : SubRegIndices) { 14715be6699cSDavid Blaikie if (Idx.getComposites().empty()) { 14724fa0cdbbSCraig Topper if (Bit > LaneBitmask::BitWidth) { 1473fe9d6f21SMatthias Braun PrintFatalError( 1474fe9d6f21SMatthias Braun Twine("Ran out of lanemask bits to represent subregister ") 1475fe9d6f21SMatthias Braun + Idx.getName()); 1476fe9d6f21SMatthias Braun } 14774fa0cdbbSCraig Topper Idx.LaneMask = LaneBitmask::getLane(Bit); 14789ae96c7aSJakob Stoklund Olesen ++Bit; 1479d346d487SJakob Stoklund Olesen } else { 148091b5cf84SKrzysztof Parzyszek Idx.LaneMask = LaneBitmask::getNone(); 1481d346d487SJakob Stoklund Olesen } 1482d346d487SJakob Stoklund Olesen } 1483d346d487SJakob Stoklund Olesen 148424557e5bSMatthias Braun // Compute transformation sequences for composeSubRegIndexLaneMask. The idea 148524557e5bSMatthias Braun // here is that for each possible target subregister we look at the leafs 148624557e5bSMatthias Braun // in the subregister graph that compose for this target and create 148724557e5bSMatthias Braun // transformation sequences for the lanemasks. Each step in the sequence 148824557e5bSMatthias Braun // consists of a bitmask and a bitrotate operation. As the rotation amounts 148924557e5bSMatthias Braun // are usually the same for many subregisters we can easily combine the steps 149024557e5bSMatthias Braun // by combining the masks. 149124557e5bSMatthias Braun for (const auto &Idx : SubRegIndices) { 149224557e5bSMatthias Braun const auto &Composites = Idx.getComposites(); 149324557e5bSMatthias Braun auto &LaneTransforms = Idx.CompositionLaneMaskTransform; 1494ff04541fSMatthias Braun 1495ff04541fSMatthias Braun if (Composites.empty()) { 1496ff04541fSMatthias Braun // Moving from a class with no subregisters we just had a single lane: 1497ff04541fSMatthias Braun // The subregister must be a leaf subregister and only occupies 1 bit. 1498ff04541fSMatthias Braun // Move the bit from the class without subregisters into that position. 1499f3a778d7SKrzysztof Parzyszek unsigned DstBit = Idx.LaneMask.getHighestLane(); 15004fa0cdbbSCraig Topper assert(Idx.LaneMask == LaneBitmask::getLane(DstBit) && 150191b5cf84SKrzysztof Parzyszek "Must be a leaf subregister"); 15024fa0cdbbSCraig Topper MaskRolPair MaskRol = { LaneBitmask::getLane(0), (uint8_t)DstBit }; 1503ff04541fSMatthias Braun LaneTransforms.push_back(MaskRol); 1504ff04541fSMatthias Braun } else { 1505ff04541fSMatthias Braun // Go through all leaf subregisters and find the ones that compose with 1506ff04541fSMatthias Braun // Idx. These make out all possible valid bits in the lane mask we want to 150724557e5bSMatthias Braun // transform. Looking only at the leafs ensure that only a single bit in 150824557e5bSMatthias Braun // the mask is set. 150924557e5bSMatthias Braun unsigned NextBit = 0; 151024557e5bSMatthias Braun for (auto &Idx2 : SubRegIndices) { 151124557e5bSMatthias Braun // Skip non-leaf subregisters. 151224557e5bSMatthias Braun if (!Idx2.getComposites().empty()) 151324557e5bSMatthias Braun continue; 151424557e5bSMatthias Braun // Replicate the behaviour from the lane mask generation loop above. 151524557e5bSMatthias Braun unsigned SrcBit = NextBit; 15164fa0cdbbSCraig Topper LaneBitmask SrcMask = LaneBitmask::getLane(SrcBit); 151791b5cf84SKrzysztof Parzyszek if (NextBit < LaneBitmask::BitWidth-1) 151824557e5bSMatthias Braun ++NextBit; 151924557e5bSMatthias Braun assert(Idx2.LaneMask == SrcMask); 152024557e5bSMatthias Braun 152124557e5bSMatthias Braun // Get the composed subregister if there is any. 152224557e5bSMatthias Braun auto C = Composites.find(&Idx2); 152324557e5bSMatthias Braun if (C == Composites.end()) 152424557e5bSMatthias Braun continue; 152524557e5bSMatthias Braun const CodeGenSubRegIndex *Composite = C->second; 152624557e5bSMatthias Braun // The Composed subreg should be a leaf subreg too 152724557e5bSMatthias Braun assert(Composite->getComposites().empty()); 152824557e5bSMatthias Braun 152924557e5bSMatthias Braun // Create Mask+Rotate operation and merge with existing ops if possible. 1530f3a778d7SKrzysztof Parzyszek unsigned DstBit = Composite->LaneMask.getHighestLane(); 153124557e5bSMatthias Braun int Shift = DstBit - SrcBit; 153291b5cf84SKrzysztof Parzyszek uint8_t RotateLeft = Shift >= 0 ? (uint8_t)Shift 153391b5cf84SKrzysztof Parzyszek : LaneBitmask::BitWidth + Shift; 153424557e5bSMatthias Braun for (auto &I : LaneTransforms) { 153524557e5bSMatthias Braun if (I.RotateLeft == RotateLeft) { 153624557e5bSMatthias Braun I.Mask |= SrcMask; 153791b5cf84SKrzysztof Parzyszek SrcMask = LaneBitmask::getNone(); 153824557e5bSMatthias Braun } 153924557e5bSMatthias Braun } 1540ea9f8ce0SKrzysztof Parzyszek if (SrcMask.any()) { 154124557e5bSMatthias Braun MaskRolPair MaskRol = { SrcMask, RotateLeft }; 154224557e5bSMatthias Braun LaneTransforms.push_back(MaskRol); 154324557e5bSMatthias Braun } 154424557e5bSMatthias Braun } 1545ff04541fSMatthias Braun } 1546ff04541fSMatthias Braun 154724557e5bSMatthias Braun // Optimize if the transformation consists of one step only: Set mask to 154824557e5bSMatthias Braun // 0xffffffff (including some irrelevant invalid bits) so that it should 154924557e5bSMatthias Braun // merge with more entries later while compressing the table. 155024557e5bSMatthias Braun if (LaneTransforms.size() == 1) 155191b5cf84SKrzysztof Parzyszek LaneTransforms[0].Mask = LaneBitmask::getAll(); 155224557e5bSMatthias Braun 155324557e5bSMatthias Braun // Further compression optimization: For invalid compositions resulting 155424557e5bSMatthias Braun // in a sequence with 0 entries we can just pick any other. Choose 155524557e5bSMatthias Braun // Mask 0xffffffff with Rotation 0. 155624557e5bSMatthias Braun if (LaneTransforms.size() == 0) { 155791b5cf84SKrzysztof Parzyszek MaskRolPair P = { LaneBitmask::getAll(), 0 }; 155824557e5bSMatthias Braun LaneTransforms.push_back(P); 155924557e5bSMatthias Braun } 156024557e5bSMatthias Braun } 156124557e5bSMatthias Braun 1562d346d487SJakob Stoklund Olesen // FIXME: What if ad-hoc aliasing introduces overlaps that aren't represented 1563d346d487SJakob Stoklund Olesen // by the sub-register graph? This doesn't occur in any known targets. 1564d346d487SJakob Stoklund Olesen 1565d346d487SJakob Stoklund Olesen // Inherit lanes from composites. 15668f25d3bcSDavid Blaikie for (const auto &Idx : SubRegIndices) { 156791b5cf84SKrzysztof Parzyszek LaneBitmask Mask = Idx.computeLaneMask(); 15689ae96c7aSJakob Stoklund Olesen // If some super-registers without CoveredBySubRegs use this index, we can 15699ae96c7aSJakob Stoklund Olesen // no longer assume that the lanes are covering their registers. 15705be6699cSDavid Blaikie if (!Idx.AllSuperRegsCovered) 15719ae96c7aSJakob Stoklund Olesen CoveringLanes &= ~Mask; 15729ae96c7aSJakob Stoklund Olesen } 1573d01627b2SMatthias Braun 1574d01627b2SMatthias Braun // Compute lane mask combinations for register classes. 1575d01627b2SMatthias Braun for (auto &RegClass : RegClasses) { 157691b5cf84SKrzysztof Parzyszek LaneBitmask LaneMask; 1577d01627b2SMatthias Braun for (const auto &SubRegIndex : SubRegIndices) { 15783b365331SMatthias Braun if (RegClass.getSubClassWithSubReg(&SubRegIndex) == nullptr) 1579d01627b2SMatthias Braun continue; 1580d01627b2SMatthias Braun LaneMask |= SubRegIndex.LaneMask; 1581d01627b2SMatthias Braun } 15824353b305SMatthias Braun 1583ff04541fSMatthias Braun // For classes without any subregisters set LaneMask to 1 instead of 0. 15844353b305SMatthias Braun // This makes it easier for client code to handle classes uniformly. 158591b5cf84SKrzysztof Parzyszek if (LaneMask.none()) 15864fa0cdbbSCraig Topper LaneMask = LaneBitmask::getLane(0); 15874353b305SMatthias Braun 1588d01627b2SMatthias Braun RegClass.LaneMask = LaneMask; 1589d01627b2SMatthias Braun } 1590d346d487SJakob Stoklund Olesen } 1591d346d487SJakob Stoklund Olesen 15921d7a2c57SAndrew Trick namespace { 1593a3fe70d2SEugene Zelenko 15941d7a2c57SAndrew Trick // UberRegSet is a helper class for computeRegUnitWeights. Each UberRegSet is 15951d7a2c57SAndrew Trick // the transitive closure of the union of overlapping register 15961d7a2c57SAndrew Trick // classes. Together, the UberRegSets form a partition of the registers. If we 15971d7a2c57SAndrew Trick // consider overlapping register classes to be connected, then each UberRegSet 15981d7a2c57SAndrew Trick // is a set of connected components. 15991d7a2c57SAndrew Trick // 16001d7a2c57SAndrew Trick // An UberRegSet will likely be a horizontal slice of register names of 16011d7a2c57SAndrew Trick // the same width. Nontrivial subregisters should then be in a separate 16021d7a2c57SAndrew Trick // UberRegSet. But this property isn't required for valid computation of 16031d7a2c57SAndrew Trick // register unit weights. 16041d7a2c57SAndrew Trick // 16051d7a2c57SAndrew Trick // A Weight field caches the max per-register unit weight in each UberRegSet. 16061d7a2c57SAndrew Trick // 16071d7a2c57SAndrew Trick // A set of SingularDeterminants flags single units of some register in this set 16081d7a2c57SAndrew Trick // for which the unit weight equals the set weight. These units should not have 16091d7a2c57SAndrew Trick // their weight increased. 16101d7a2c57SAndrew Trick struct UberRegSet { 1611be2edf30SOwen Anderson CodeGenRegister::Vec Regs; 1612a3fe70d2SEugene Zelenko unsigned Weight = 0; 16131d7a2c57SAndrew Trick CodeGenRegister::RegUnitList SingularDeterminants; 16141d7a2c57SAndrew Trick 1615a3fe70d2SEugene Zelenko UberRegSet() = default; 16161d7a2c57SAndrew Trick }; 1617a3fe70d2SEugene Zelenko 1618a3fe70d2SEugene Zelenko } // end anonymous namespace 16191d7a2c57SAndrew Trick 16201d7a2c57SAndrew Trick // Partition registers into UberRegSets, where each set is the transitive 16211d7a2c57SAndrew Trick // closure of the union of overlapping register classes. 16221d7a2c57SAndrew Trick // 16231d7a2c57SAndrew Trick // UberRegSets[0] is a special non-allocatable set. 16241d7a2c57SAndrew Trick static void computeUberSets(std::vector<UberRegSet> &UberSets, 16251d7a2c57SAndrew Trick std::vector<UberRegSet*> &RegSets, 16261d7a2c57SAndrew Trick CodeGenRegBank &RegBank) { 16279b613dbaSDavid Blaikie const auto &Registers = RegBank.getRegisters(); 16281d7a2c57SAndrew Trick 16291d7a2c57SAndrew Trick // The Register EnumValue is one greater than its index into Registers. 16309b613dbaSDavid Blaikie assert(Registers.size() == Registers.back().EnumValue && 16311d7a2c57SAndrew Trick "register enum value mismatch"); 16321d7a2c57SAndrew Trick 16331d7a2c57SAndrew Trick // For simplicitly make the SetID the same as EnumValue. 16341d7a2c57SAndrew Trick IntEqClasses UberSetIDs(Registers.size()+1); 16350d94c73cSAndrew Trick std::set<unsigned> AllocatableRegs; 1636dacea4bcSDavid Blaikie for (auto &RegClass : RegBank.getRegClasses()) { 1637dacea4bcSDavid Blaikie if (!RegClass.Allocatable) 16380d94c73cSAndrew Trick continue; 16390d94c73cSAndrew Trick 1640be2edf30SOwen Anderson const CodeGenRegister::Vec &Regs = RegClass.getMembers(); 16410d94c73cSAndrew Trick if (Regs.empty()) 16420d94c73cSAndrew Trick continue; 16431d7a2c57SAndrew Trick 16441d7a2c57SAndrew Trick unsigned USetID = UberSetIDs.findLeader((*Regs.begin())->EnumValue); 16451d7a2c57SAndrew Trick assert(USetID && "register number 0 is invalid"); 16461d7a2c57SAndrew Trick 16470d94c73cSAndrew Trick AllocatableRegs.insert((*Regs.begin())->EnumValue); 1648cfc74024SKazu Hirata for (const CodeGenRegister *CGR : llvm::drop_begin(Regs)) { 1649cfc74024SKazu Hirata AllocatableRegs.insert(CGR->EnumValue); 1650cfc74024SKazu Hirata UberSetIDs.join(USetID, CGR->EnumValue); 16511d7a2c57SAndrew Trick } 16520d94c73cSAndrew Trick } 16530d94c73cSAndrew Trick // Combine non-allocatable regs. 16549b613dbaSDavid Blaikie for (const auto &Reg : Registers) { 16559b613dbaSDavid Blaikie unsigned RegNum = Reg.EnumValue; 16560d94c73cSAndrew Trick if (AllocatableRegs.count(RegNum)) 16570d94c73cSAndrew Trick continue; 16580d94c73cSAndrew Trick 16590d94c73cSAndrew Trick UberSetIDs.join(0, RegNum); 16600d94c73cSAndrew Trick } 16611d7a2c57SAndrew Trick UberSetIDs.compress(); 16621d7a2c57SAndrew Trick 16631d7a2c57SAndrew Trick // Make the first UberSet a special unallocatable set. 16641d7a2c57SAndrew Trick unsigned ZeroID = UberSetIDs[0]; 16651d7a2c57SAndrew Trick 16661d7a2c57SAndrew Trick // Insert Registers into the UberSets formed by union-find. 16671d7a2c57SAndrew Trick // Do not resize after this. 16681d7a2c57SAndrew Trick UberSets.resize(UberSetIDs.getNumClasses()); 16699b613dbaSDavid Blaikie unsigned i = 0; 16709b613dbaSDavid Blaikie for (const CodeGenRegister &Reg : Registers) { 16719b613dbaSDavid Blaikie unsigned USetID = UberSetIDs[Reg.EnumValue]; 16721d7a2c57SAndrew Trick if (!USetID) 16731d7a2c57SAndrew Trick USetID = ZeroID; 16741d7a2c57SAndrew Trick else if (USetID == ZeroID) 16751d7a2c57SAndrew Trick USetID = 0; 16761d7a2c57SAndrew Trick 16771d7a2c57SAndrew Trick UberRegSet *USet = &UberSets[USetID]; 1678be2edf30SOwen Anderson USet->Regs.push_back(&Reg); 1679be2edf30SOwen Anderson sortAndUniqueRegisters(USet->Regs); 16809b613dbaSDavid Blaikie RegSets[i++] = USet; 16811d7a2c57SAndrew Trick } 16821d7a2c57SAndrew Trick } 16831d7a2c57SAndrew Trick 16841d7a2c57SAndrew Trick // Recompute each UberSet weight after changing unit weights. 16851d7a2c57SAndrew Trick static void computeUberWeights(std::vector<UberRegSet> &UberSets, 16861d7a2c57SAndrew Trick CodeGenRegBank &RegBank) { 16871d7a2c57SAndrew Trick // Skip the first unallocatable set. 1688b6d0bd48SBenjamin Kramer for (std::vector<UberRegSet>::iterator I = std::next(UberSets.begin()), 16891d7a2c57SAndrew Trick E = UberSets.end(); I != E; ++I) { 16901d7a2c57SAndrew Trick 16911d7a2c57SAndrew Trick // Initialize all unit weights in this set, and remember the max units/reg. 169224064771SCraig Topper const CodeGenRegister *Reg = nullptr; 16931d7a2c57SAndrew Trick unsigned MaxWeight = 0, Weight = 0; 16941d7a2c57SAndrew Trick for (RegUnitIterator UnitI(I->Regs); UnitI.isValid(); ++UnitI) { 16951d7a2c57SAndrew Trick if (Reg != UnitI.getReg()) { 16961d7a2c57SAndrew Trick if (Weight > MaxWeight) 16971d7a2c57SAndrew Trick MaxWeight = Weight; 16981d7a2c57SAndrew Trick Reg = UnitI.getReg(); 16991d7a2c57SAndrew Trick Weight = 0; 17001d7a2c57SAndrew Trick } 1701eb0c510eSKrzysztof Parzyszek if (!RegBank.getRegUnit(*UnitI).Artificial) { 1702095f22afSJakob Stoklund Olesen unsigned UWeight = RegBank.getRegUnit(*UnitI).Weight; 17031d7a2c57SAndrew Trick if (!UWeight) { 17041d7a2c57SAndrew Trick UWeight = 1; 17051d7a2c57SAndrew Trick RegBank.increaseRegUnitWeight(*UnitI, UWeight); 17061d7a2c57SAndrew Trick } 17071d7a2c57SAndrew Trick Weight += UWeight; 17081d7a2c57SAndrew Trick } 1709eb0c510eSKrzysztof Parzyszek } 17101d7a2c57SAndrew Trick if (Weight > MaxWeight) 17111d7a2c57SAndrew Trick MaxWeight = Weight; 1712301dd8d7SAndrew Trick if (I->Weight != MaxWeight) { 1713d34e60caSNicola Zaghen LLVM_DEBUG(dbgs() << "UberSet " << I - UberSets.begin() << " Weight " 1714d34e60caSNicola Zaghen << MaxWeight; 1715d34e60caSNicola Zaghen for (auto &Unit 1716d34e60caSNicola Zaghen : I->Regs) dbgs() 1717d34e60caSNicola Zaghen << " " << Unit->getName(); 1718301dd8d7SAndrew Trick dbgs() << "\n"); 17191d7a2c57SAndrew Trick // Update the set weight. 17201d7a2c57SAndrew Trick I->Weight = MaxWeight; 1721301dd8d7SAndrew Trick } 17221d7a2c57SAndrew Trick 17231d7a2c57SAndrew Trick // Find singular determinants. 1724be2edf30SOwen Anderson for (const auto R : I->Regs) { 1725be2edf30SOwen Anderson if (R->getRegUnits().count() == 1 && R->getWeight(RegBank) == I->Weight) { 1726be2edf30SOwen Anderson I->SingularDeterminants |= R->getRegUnits(); 1727a366d7b2SOwen Anderson } 17281d7a2c57SAndrew Trick } 17291d7a2c57SAndrew Trick } 17301d7a2c57SAndrew Trick } 17311d7a2c57SAndrew Trick 17321d7a2c57SAndrew Trick // normalizeWeight is a computeRegUnitWeights helper that adjusts the weight of 17331d7a2c57SAndrew Trick // a register and its subregisters so that they have the same weight as their 17341d7a2c57SAndrew Trick // UberSet. Self-recursion processes the subregister tree in postorder so 17351d7a2c57SAndrew Trick // subregisters are normalized first. 17361d7a2c57SAndrew Trick // 17371d7a2c57SAndrew Trick // Side effects: 17381d7a2c57SAndrew Trick // - creates new adopted register units 17391d7a2c57SAndrew Trick // - causes superregisters to inherit adopted units 17401d7a2c57SAndrew Trick // - increases the weight of "singular" units 17411d7a2c57SAndrew Trick // - induces recomputation of UberWeights. 17421d7a2c57SAndrew Trick static bool normalizeWeight(CodeGenRegister *Reg, 17431d7a2c57SAndrew Trick std::vector<UberRegSet> &UberSets, 17441d7a2c57SAndrew Trick std::vector<UberRegSet*> &RegSets, 1745646d06fcSDaniel Sanders BitVector &NormalRegs, 17461d7a2c57SAndrew Trick CodeGenRegister::RegUnitList &NormalUnits, 17471d7a2c57SAndrew Trick CodeGenRegBank &RegBank) { 1748646d06fcSDaniel Sanders NormalRegs.resize(std::max(Reg->EnumValue + 1, NormalRegs.size())); 1749a366d7b2SOwen Anderson if (NormalRegs.test(Reg->EnumValue)) 1750a366d7b2SOwen Anderson return false; 1751a366d7b2SOwen Anderson NormalRegs.set(Reg->EnumValue); 17525d133998SAndrew Trick 1753a366d7b2SOwen Anderson bool Changed = false; 17541d7a2c57SAndrew Trick const CodeGenRegister::SubRegMap &SRM = Reg->getSubRegs(); 1755e6cf3d64SCoelacanthus for (auto SRI : SRM) { 1756e6cf3d64SCoelacanthus if (SRI.second == Reg) 17571d7a2c57SAndrew Trick continue; // self-cycles happen 17581d7a2c57SAndrew Trick 1759e6cf3d64SCoelacanthus Changed |= normalizeWeight(SRI.second, UberSets, RegSets, NormalRegs, 1760e6cf3d64SCoelacanthus NormalUnits, RegBank); 17611d7a2c57SAndrew Trick } 17621d7a2c57SAndrew Trick // Postorder register normalization. 17631d7a2c57SAndrew Trick 17641d7a2c57SAndrew Trick // Inherit register units newly adopted by subregisters. 17651d7a2c57SAndrew Trick if (Reg->inheritRegUnits(RegBank)) 17661d7a2c57SAndrew Trick computeUberWeights(UberSets, RegBank); 17671d7a2c57SAndrew Trick 17681d7a2c57SAndrew Trick // Check if this register is too skinny for its UberRegSet. 17691d7a2c57SAndrew Trick UberRegSet *UberSet = RegSets[RegBank.getRegIndex(Reg)]; 17701d7a2c57SAndrew Trick 17711d7a2c57SAndrew Trick unsigned RegWeight = Reg->getWeight(RegBank); 17721d7a2c57SAndrew Trick if (UberSet->Weight > RegWeight) { 17731d7a2c57SAndrew Trick // A register unit's weight can be adjusted only if it is the singular unit 17741d7a2c57SAndrew Trick // for this register, has not been used to normalize a subregister's set, 17751d7a2c57SAndrew Trick // and has not already been used to singularly determine this UberRegSet. 1776a366d7b2SOwen Anderson unsigned AdjustUnit = *Reg->getRegUnits().begin(); 1777a366d7b2SOwen Anderson if (Reg->getRegUnits().count() != 1 17781d7a2c57SAndrew Trick || hasRegUnit(NormalUnits, AdjustUnit) 17791d7a2c57SAndrew Trick || hasRegUnit(UberSet->SingularDeterminants, AdjustUnit)) { 17801d7a2c57SAndrew Trick // We don't have an adjustable unit, so adopt a new one. 17811d7a2c57SAndrew Trick AdjustUnit = RegBank.newRegUnit(UberSet->Weight - RegWeight); 17821d7a2c57SAndrew Trick Reg->adoptRegUnit(AdjustUnit); 17831d7a2c57SAndrew Trick // Adopting a unit does not immediately require recomputing set weights. 17841d7a2c57SAndrew Trick } 17851d7a2c57SAndrew Trick else { 17861d7a2c57SAndrew Trick // Adjust the existing single unit. 1787eb0c510eSKrzysztof Parzyszek if (!RegBank.getRegUnit(AdjustUnit).Artificial) 17881d7a2c57SAndrew Trick RegBank.increaseRegUnitWeight(AdjustUnit, UberSet->Weight - RegWeight); 17891d7a2c57SAndrew Trick // The unit may be shared among sets and registers within this set. 17901d7a2c57SAndrew Trick computeUberWeights(UberSets, RegBank); 17911d7a2c57SAndrew Trick } 17921d7a2c57SAndrew Trick Changed = true; 17931d7a2c57SAndrew Trick } 17941d7a2c57SAndrew Trick 17951d7a2c57SAndrew Trick // Mark these units normalized so superregisters can't change their weights. 1796a366d7b2SOwen Anderson NormalUnits |= Reg->getRegUnits(); 17971d7a2c57SAndrew Trick 17981d7a2c57SAndrew Trick return Changed; 17991d7a2c57SAndrew Trick } 18001d7a2c57SAndrew Trick 18011d7a2c57SAndrew Trick // Compute a weight for each register unit created during getSubRegs. 18021d7a2c57SAndrew Trick // 18031d7a2c57SAndrew Trick // The goal is that two registers in the same class will have the same weight, 18041d7a2c57SAndrew Trick // where each register's weight is defined as sum of its units' weights. 18051d7a2c57SAndrew Trick void CodeGenRegBank::computeRegUnitWeights() { 18061d7a2c57SAndrew Trick std::vector<UberRegSet> UberSets; 18071d7a2c57SAndrew Trick std::vector<UberRegSet*> RegSets(Registers.size()); 18081d7a2c57SAndrew Trick computeUberSets(UberSets, RegSets, *this); 18091d7a2c57SAndrew Trick // UberSets and RegSets are now immutable. 18101d7a2c57SAndrew Trick 18111d7a2c57SAndrew Trick computeUberWeights(UberSets, *this); 18121d7a2c57SAndrew Trick 18131d7a2c57SAndrew Trick // Iterate over each Register, normalizing the unit weights until reaching 18141d7a2c57SAndrew Trick // a fix point. 18151d7a2c57SAndrew Trick unsigned NumIters = 0; 18161d7a2c57SAndrew Trick for (bool Changed = true; Changed; ++NumIters) { 18171d7a2c57SAndrew Trick assert(NumIters <= NumNativeRegUnits && "Runaway register unit weights"); 181846776f75SMartin Storsjö (void) NumIters; 18191d7a2c57SAndrew Trick Changed = false; 18209b613dbaSDavid Blaikie for (auto &Reg : Registers) { 18211d7a2c57SAndrew Trick CodeGenRegister::RegUnitList NormalUnits; 1822646d06fcSDaniel Sanders BitVector NormalRegs; 18239b613dbaSDavid Blaikie Changed |= normalizeWeight(&Reg, UberSets, RegSets, NormalRegs, 18249b613dbaSDavid Blaikie NormalUnits, *this); 18251d7a2c57SAndrew Trick } 18261d7a2c57SAndrew Trick } 18271d7a2c57SAndrew Trick } 18281d7a2c57SAndrew Trick 1829739a0038SAndrew Trick // Find a set in UniqueSets with the same elements as Set. 1830739a0038SAndrew Trick // Return an iterator into UniqueSets. 1831739a0038SAndrew Trick static std::vector<RegUnitSet>::const_iterator 1832739a0038SAndrew Trick findRegUnitSet(const std::vector<RegUnitSet> &UniqueSets, 1833739a0038SAndrew Trick const RegUnitSet &Set) { 1834739a0038SAndrew Trick std::vector<RegUnitSet>::const_iterator 1835739a0038SAndrew Trick I = UniqueSets.begin(), E = UniqueSets.end(); 1836739a0038SAndrew Trick for(;I != E; ++I) { 1837739a0038SAndrew Trick if (I->Units == Set.Units) 1838739a0038SAndrew Trick break; 1839739a0038SAndrew Trick } 1840739a0038SAndrew Trick return I; 1841739a0038SAndrew Trick } 1842739a0038SAndrew Trick 1843739a0038SAndrew Trick // Return true if the RUSubSet is a subset of RUSuperSet. 1844739a0038SAndrew Trick static bool isRegUnitSubSet(const std::vector<unsigned> &RUSubSet, 1845739a0038SAndrew Trick const std::vector<unsigned> &RUSuperSet) { 18469002c315SAndrew Trick return std::includes(RUSuperSet.begin(), RUSuperSet.end(), 18479002c315SAndrew Trick RUSubSet.begin(), RUSubSet.end()); 1848739a0038SAndrew Trick } 1849739a0038SAndrew Trick 1850753663ccSAndrew Trick /// Iteratively prune unit sets. Prune subsets that are close to the superset, 18519447cce0SAndrew Trick /// but with one or two registers removed. We occasionally have registers like 18529447cce0SAndrew Trick /// APSR and PC thrown in with the general registers. We also see many 18539447cce0SAndrew Trick /// special-purpose register subsets, such as tail-call and Thumb 18549447cce0SAndrew Trick /// encodings. Generating all possible overlapping sets is combinatorial and 18559447cce0SAndrew Trick /// overkill for modeling pressure. Ideally we could fix this statically in 18569447cce0SAndrew Trick /// tablegen by (1) having the target define register classes that only include 18579447cce0SAndrew Trick /// the allocatable registers and marking other classes as non-allocatable and 18589447cce0SAndrew Trick /// (2) having a way to mark special purpose classes as "don't-care" classes for 18599447cce0SAndrew Trick /// the purpose of pressure. However, we make an attempt to handle targets that 18609447cce0SAndrew Trick /// are not nicely defined by merging nearly identical register unit sets 18619447cce0SAndrew Trick /// statically. This generates smaller tables. Then, dynamically, we adjust the 18629447cce0SAndrew Trick /// set limit by filtering the reserved registers. 18639447cce0SAndrew Trick /// 18649447cce0SAndrew Trick /// Merge sets only if the units have the same weight. For example, on ARM, 18659447cce0SAndrew Trick /// Q-tuples with ssub index 0 include all S regs but also include D16+. We 18669447cce0SAndrew Trick /// should not expand the S set to include D regs. 1867739a0038SAndrew Trick void CodeGenRegBank::pruneUnitSets() { 1868739a0038SAndrew Trick assert(RegClassUnitSets.empty() && "this invalidates RegClassUnitSets"); 1869739a0038SAndrew Trick 1870739a0038SAndrew Trick // Form an equivalence class of UnitSets with no significant difference. 1871a5eee987SAndrew Trick std::vector<unsigned> SuperSetIDs; 1872739a0038SAndrew Trick for (unsigned SubIdx = 0, EndIdx = RegUnitSets.size(); 1873739a0038SAndrew Trick SubIdx != EndIdx; ++SubIdx) { 1874739a0038SAndrew Trick const RegUnitSet &SubSet = RegUnitSets[SubIdx]; 18750d94c73cSAndrew Trick unsigned SuperIdx = 0; 18760d94c73cSAndrew Trick for (; SuperIdx != EndIdx; ++SuperIdx) { 1877739a0038SAndrew Trick if (SuperIdx == SubIdx) 1878739a0038SAndrew Trick continue; 1879a5eee987SAndrew Trick 18809447cce0SAndrew Trick unsigned UnitWeight = RegUnits[SubSet.Units[0]].Weight; 1881a5eee987SAndrew Trick const RegUnitSet &SuperSet = RegUnitSets[SuperIdx]; 1882a5eee987SAndrew Trick if (isRegUnitSubSet(SubSet.Units, SuperSet.Units) 18839447cce0SAndrew Trick && (SubSet.Units.size() + 3 > SuperSet.Units.size()) 18849447cce0SAndrew Trick && UnitWeight == RegUnits[SuperSet.Units[0]].Weight 18859447cce0SAndrew Trick && UnitWeight == RegUnits[SuperSet.Units.back()].Weight) { 1886d34e60caSNicola Zaghen LLVM_DEBUG(dbgs() << "UnitSet " << SubIdx << " subsumed by " << SuperIdx 1887301dd8d7SAndrew Trick << "\n"); 1888167cbd21SMatthias Braun // We can pick any of the set names for the merged set. Go for the 1889167cbd21SMatthias Braun // shortest one to avoid picking the name of one of the classes that are 1890167cbd21SMatthias Braun // artificially created by tablegen. So "FPR128_lo" instead of 1891167cbd21SMatthias Braun // "QQQQ_with_qsub3_in_FPR128_lo". 1892167cbd21SMatthias Braun if (RegUnitSets[SubIdx].Name.size() < RegUnitSets[SuperIdx].Name.size()) 1893167cbd21SMatthias Braun RegUnitSets[SuperIdx].Name = RegUnitSets[SubIdx].Name; 18940d94c73cSAndrew Trick break; 1895739a0038SAndrew Trick } 1896739a0038SAndrew Trick } 1897a5eee987SAndrew Trick if (SuperIdx == EndIdx) 1898a5eee987SAndrew Trick SuperSetIDs.push_back(SubIdx); 1899a5eee987SAndrew Trick } 1900a5eee987SAndrew Trick // Populate PrunedUnitSets with each equivalence class's superset. 1901a5eee987SAndrew Trick std::vector<RegUnitSet> PrunedUnitSets(SuperSetIDs.size()); 1902a5eee987SAndrew Trick for (unsigned i = 0, e = SuperSetIDs.size(); i != e; ++i) { 1903a5eee987SAndrew Trick unsigned SuperIdx = SuperSetIDs[i]; 1904a5eee987SAndrew Trick PrunedUnitSets[i].Name = RegUnitSets[SuperIdx].Name; 1905a5eee987SAndrew Trick PrunedUnitSets[i].Units.swap(RegUnitSets[SuperIdx].Units); 1906739a0038SAndrew Trick } 1907739a0038SAndrew Trick RegUnitSets.swap(PrunedUnitSets); 1908739a0038SAndrew Trick } 1909739a0038SAndrew Trick 1910739a0038SAndrew Trick // Create a RegUnitSet for each RegClass that contains all units in the class 1911739a0038SAndrew Trick // including adopted units that are necessary to model register pressure. Then 1912739a0038SAndrew Trick // iteratively compute RegUnitSets such that the union of any two overlapping 1913739a0038SAndrew Trick // RegUnitSets is repreresented. 1914739a0038SAndrew Trick // 1915739a0038SAndrew Trick // RegisterInfoEmitter will map each RegClass to its RegUnitClass and any 1916739a0038SAndrew Trick // RegUnitSet that is a superset of that RegUnitClass. 1917739a0038SAndrew Trick void CodeGenRegBank::computeRegUnitSets() { 1918301dd8d7SAndrew Trick assert(RegUnitSets.empty() && "dirty RegUnitSets"); 1919739a0038SAndrew Trick 1920739a0038SAndrew Trick // Compute a unique RegUnitSet for each RegClass. 1921c0bb5cabSDavid Blaikie auto &RegClasses = getRegClasses(); 1922dacea4bcSDavid Blaikie for (auto &RC : RegClasses) { 19238e760e10SStanislav Mekhanoshin if (!RC.Allocatable || RC.Artificial || !RC.GeneratePressureSet) 19240d94c73cSAndrew Trick continue; 1925739a0038SAndrew Trick 1926739a0038SAndrew Trick // Speculatively grow the RegUnitSets to hold the new set. 1927739a0038SAndrew Trick RegUnitSets.resize(RegUnitSets.size() + 1); 1928dacea4bcSDavid Blaikie RegUnitSets.back().Name = RC.getName(); 19297d52db98SAndrew Trick 19307d52db98SAndrew Trick // Compute a sorted list of units in this class. 1931eb0c510eSKrzysztof Parzyszek RC.buildRegUnitSet(*this, RegUnitSets.back().Units); 1932739a0038SAndrew Trick 1933739a0038SAndrew Trick // Find an existing RegUnitSet. 1934739a0038SAndrew Trick std::vector<RegUnitSet>::const_iterator SetI = 1935739a0038SAndrew Trick findRegUnitSet(RegUnitSets, RegUnitSets.back()); 1936b6d0bd48SBenjamin Kramer if (SetI != std::prev(RegUnitSets.end())) 1937739a0038SAndrew Trick RegUnitSets.pop_back(); 1938739a0038SAndrew Trick } 1939739a0038SAndrew Trick 194040ddde5dSChristudasan Devadasan if (RegUnitSets.empty()) 194140ddde5dSChristudasan Devadasan PrintFatalError("RegUnitSets cannot be empty!"); 194240ddde5dSChristudasan Devadasan 1943d34e60caSNicola Zaghen LLVM_DEBUG(dbgs() << "\nBefore pruning:\n"; for (unsigned USIdx = 0, 1944d34e60caSNicola Zaghen USEnd = RegUnitSets.size(); 1945301dd8d7SAndrew Trick USIdx < USEnd; ++USIdx) { 1946d34e60caSNicola Zaghen dbgs() << "UnitSet " << USIdx << " " << RegUnitSets[USIdx].Name << ":"; 194749cf4675SDavid Blaikie for (auto &U : RegUnitSets[USIdx].Units) 194846a0392cSKrzysztof Parzyszek printRegUnitName(U); 1949301dd8d7SAndrew Trick dbgs() << "\n"; 1950301dd8d7SAndrew Trick }); 1951301dd8d7SAndrew Trick 1952739a0038SAndrew Trick // Iteratively prune unit sets. 1953739a0038SAndrew Trick pruneUnitSets(); 1954739a0038SAndrew Trick 1955d34e60caSNicola Zaghen LLVM_DEBUG(dbgs() << "\nBefore union:\n"; for (unsigned USIdx = 0, 1956d34e60caSNicola Zaghen USEnd = RegUnitSets.size(); 1957301dd8d7SAndrew Trick USIdx < USEnd; ++USIdx) { 1958d34e60caSNicola Zaghen dbgs() << "UnitSet " << USIdx << " " << RegUnitSets[USIdx].Name << ":"; 195949cf4675SDavid Blaikie for (auto &U : RegUnitSets[USIdx].Units) 196046a0392cSKrzysztof Parzyszek printRegUnitName(U); 1961301dd8d7SAndrew Trick dbgs() << "\n"; 1962d34e60caSNicola Zaghen } dbgs() << "\nUnion sets:\n"); 1963301dd8d7SAndrew Trick 1964739a0038SAndrew Trick // Iterate over all unit sets, including new ones added by this loop. 1965739a0038SAndrew Trick unsigned NumRegUnitSubSets = RegUnitSets.size(); 1966739a0038SAndrew Trick for (unsigned Idx = 0, EndIdx = RegUnitSets.size(); Idx != EndIdx; ++Idx) { 1967739a0038SAndrew Trick // In theory, this is combinatorial. In practice, it needs to be bounded 1968739a0038SAndrew Trick // by a small number of sets for regpressure to be efficient. 1969739a0038SAndrew Trick // If the assert is hit, we need to implement pruning. 1970739a0038SAndrew Trick assert(Idx < (2*NumRegUnitSubSets) && "runaway unit set inference"); 1971739a0038SAndrew Trick 1972739a0038SAndrew Trick // Compare new sets with all original classes. 1973f8b1a666SAndrew Trick for (unsigned SearchIdx = (Idx >= NumRegUnitSubSets) ? 0 : Idx+1; 1974739a0038SAndrew Trick SearchIdx != EndIdx; ++SearchIdx) { 1975739a0038SAndrew Trick std::set<unsigned> Intersection; 1976739a0038SAndrew Trick std::set_intersection(RegUnitSets[Idx].Units.begin(), 1977739a0038SAndrew Trick RegUnitSets[Idx].Units.end(), 1978739a0038SAndrew Trick RegUnitSets[SearchIdx].Units.begin(), 1979739a0038SAndrew Trick RegUnitSets[SearchIdx].Units.end(), 1980739a0038SAndrew Trick std::inserter(Intersection, Intersection.begin())); 1981739a0038SAndrew Trick if (Intersection.empty()) 1982739a0038SAndrew Trick continue; 1983739a0038SAndrew Trick 1984739a0038SAndrew Trick // Speculatively grow the RegUnitSets to hold the new set. 1985739a0038SAndrew Trick RegUnitSets.resize(RegUnitSets.size() + 1); 1986739a0038SAndrew Trick RegUnitSets.back().Name = 1987b2a958a0SStanislav Mekhanoshin RegUnitSets[Idx].Name + "_with_" + RegUnitSets[SearchIdx].Name; 1988739a0038SAndrew Trick 1989739a0038SAndrew Trick std::set_union(RegUnitSets[Idx].Units.begin(), 1990739a0038SAndrew Trick RegUnitSets[Idx].Units.end(), 1991739a0038SAndrew Trick RegUnitSets[SearchIdx].Units.begin(), 1992739a0038SAndrew Trick RegUnitSets[SearchIdx].Units.end(), 1993739a0038SAndrew Trick std::inserter(RegUnitSets.back().Units, 1994739a0038SAndrew Trick RegUnitSets.back().Units.begin())); 1995739a0038SAndrew Trick 1996739a0038SAndrew Trick // Find an existing RegUnitSet, or add the union to the unique sets. 1997739a0038SAndrew Trick std::vector<RegUnitSet>::const_iterator SetI = 1998739a0038SAndrew Trick findRegUnitSet(RegUnitSets, RegUnitSets.back()); 1999b6d0bd48SBenjamin Kramer if (SetI != std::prev(RegUnitSets.end())) 2000739a0038SAndrew Trick RegUnitSets.pop_back(); 20019447cce0SAndrew Trick else { 2002d34e60caSNicola Zaghen LLVM_DEBUG(dbgs() << "UnitSet " << RegUnitSets.size() - 1 << " " 2003d34e60caSNicola Zaghen << RegUnitSets.back().Name << ":"; 2004d34e60caSNicola Zaghen for (auto &U 2005d34e60caSNicola Zaghen : RegUnitSets.back().Units) printRegUnitName(U); 20069447cce0SAndrew Trick dbgs() << "\n";); 20079447cce0SAndrew Trick } 2008739a0038SAndrew Trick } 2009739a0038SAndrew Trick } 2010739a0038SAndrew Trick 20110d94c73cSAndrew Trick // Iteratively prune unit sets after inferring supersets. 2012739a0038SAndrew Trick pruneUnitSets(); 2013739a0038SAndrew Trick 2014d34e60caSNicola Zaghen LLVM_DEBUG( 2015d34e60caSNicola Zaghen dbgs() << "\n"; for (unsigned USIdx = 0, USEnd = RegUnitSets.size(); 2016301dd8d7SAndrew Trick USIdx < USEnd; ++USIdx) { 2017d34e60caSNicola Zaghen dbgs() << "UnitSet " << USIdx << " " << RegUnitSets[USIdx].Name << ":"; 201849cf4675SDavid Blaikie for (auto &U : RegUnitSets[USIdx].Units) 201946a0392cSKrzysztof Parzyszek printRegUnitName(U); 2020301dd8d7SAndrew Trick dbgs() << "\n"; 2021301dd8d7SAndrew Trick }); 2022301dd8d7SAndrew Trick 2023739a0038SAndrew Trick // For each register class, list the UnitSets that are supersets. 2024c0bb5cabSDavid Blaikie RegClassUnitSets.resize(RegClasses.size()); 2025c0bb5cabSDavid Blaikie int RCIdx = -1; 2026dacea4bcSDavid Blaikie for (auto &RC : RegClasses) { 2027c0bb5cabSDavid Blaikie ++RCIdx; 2028dacea4bcSDavid Blaikie if (!RC.Allocatable) 20290d94c73cSAndrew Trick continue; 20300d94c73cSAndrew Trick 2031739a0038SAndrew Trick // Recompute the sorted list of units in this class. 2032301dd8d7SAndrew Trick std::vector<unsigned> RCRegUnits; 2033eb0c510eSKrzysztof Parzyszek RC.buildRegUnitSet(*this, RCRegUnits); 2034739a0038SAndrew Trick 2035739a0038SAndrew Trick // Don't increase pressure for unallocatable regclasses. 2036301dd8d7SAndrew Trick if (RCRegUnits.empty()) 2037739a0038SAndrew Trick continue; 2038739a0038SAndrew Trick 2039d34e60caSNicola Zaghen LLVM_DEBUG(dbgs() << "RC " << RC.getName() << " Units:\n"; 2040d34e60caSNicola Zaghen for (auto U 2041d34e60caSNicola Zaghen : RCRegUnits) printRegUnitName(U); 2042301dd8d7SAndrew Trick dbgs() << "\n UnitSetIDs:"); 2043301dd8d7SAndrew Trick 2044739a0038SAndrew Trick // Find all supersets. 2045739a0038SAndrew Trick for (unsigned USIdx = 0, USEnd = RegUnitSets.size(); 2046739a0038SAndrew Trick USIdx != USEnd; ++USIdx) { 2047301dd8d7SAndrew Trick if (isRegUnitSubSet(RCRegUnits, RegUnitSets[USIdx].Units)) { 2048d34e60caSNicola Zaghen LLVM_DEBUG(dbgs() << " " << USIdx); 2049739a0038SAndrew Trick RegClassUnitSets[RCIdx].push_back(USIdx); 2050739a0038SAndrew Trick } 2051301dd8d7SAndrew Trick } 2052d34e60caSNicola Zaghen LLVM_DEBUG(dbgs() << "\n"); 205340ddde5dSChristudasan Devadasan assert((!RegClassUnitSets[RCIdx].empty() || !RC.GeneratePressureSet) && 205440ddde5dSChristudasan Devadasan "missing unit set for regclass"); 2055739a0038SAndrew Trick } 2056510e606eSAndrew Trick 2057510e606eSAndrew Trick // For each register unit, ensure that we have the list of UnitSets that 2058510e606eSAndrew Trick // contain the unit. Normally, this matches an existing list of UnitSets for a 2059510e606eSAndrew Trick // register class. If not, we create a new entry in RegClassUnitSets as a 2060510e606eSAndrew Trick // "fake" register class. 2061510e606eSAndrew Trick for (unsigned UnitIdx = 0, UnitEnd = NumNativeRegUnits; 2062510e606eSAndrew Trick UnitIdx < UnitEnd; ++UnitIdx) { 2063510e606eSAndrew Trick std::vector<unsigned> RUSets; 2064510e606eSAndrew Trick for (unsigned i = 0, e = RegUnitSets.size(); i != e; ++i) { 2065510e606eSAndrew Trick RegUnitSet &RUSet = RegUnitSets[i]; 20660d955d0bSDavid Majnemer if (!is_contained(RUSet.Units, UnitIdx)) 2067510e606eSAndrew Trick continue; 2068510e606eSAndrew Trick RUSets.push_back(i); 2069510e606eSAndrew Trick } 2070510e606eSAndrew Trick unsigned RCUnitSetsIdx = 0; 2071510e606eSAndrew Trick for (unsigned e = RegClassUnitSets.size(); 2072510e606eSAndrew Trick RCUnitSetsIdx != e; ++RCUnitSetsIdx) { 2073510e606eSAndrew Trick if (RegClassUnitSets[RCUnitSetsIdx] == RUSets) { 2074510e606eSAndrew Trick break; 2075510e606eSAndrew Trick } 2076510e606eSAndrew Trick } 2077510e606eSAndrew Trick RegUnits[UnitIdx].RegClassUnitSetsIdx = RCUnitSetsIdx; 2078510e606eSAndrew Trick if (RCUnitSetsIdx == RegClassUnitSets.size()) { 2079510e606eSAndrew Trick // Create a new list of UnitSets as a "fake" register class. 2080510e606eSAndrew Trick RegClassUnitSets.resize(RCUnitSetsIdx + 1); 2081510e606eSAndrew Trick RegClassUnitSets[RCUnitSetsIdx].swap(RUSets); 2082510e606eSAndrew Trick } 2083510e606eSAndrew Trick } 2084739a0038SAndrew Trick } 2085739a0038SAndrew Trick 2086755f8b18SMatthias Braun void CodeGenRegBank::computeRegUnitLaneMasks() { 2087755f8b18SMatthias Braun for (auto &Register : Registers) { 2088755f8b18SMatthias Braun // Create an initial lane mask for all register units. 2089755f8b18SMatthias Braun const auto &RegUnits = Register.getRegUnits(); 209091b5cf84SKrzysztof Parzyszek CodeGenRegister::RegUnitLaneMaskList 209191b5cf84SKrzysztof Parzyszek RegUnitLaneMasks(RegUnits.count(), LaneBitmask::getNone()); 2092755f8b18SMatthias Braun // Iterate through SubRegisters. 2093755f8b18SMatthias Braun typedef CodeGenRegister::SubRegMap SubRegMap; 2094755f8b18SMatthias Braun const SubRegMap &SubRegs = Register.getSubRegs(); 2095e6cf3d64SCoelacanthus for (auto S : SubRegs) { 2096e6cf3d64SCoelacanthus CodeGenRegister *SubReg = S.second; 2097755f8b18SMatthias Braun // Ignore non-leaf subregisters, their lane masks are fully covered by 2098755f8b18SMatthias Braun // the leaf subregisters anyway. 2099a3fe70d2SEugene Zelenko if (!SubReg->getSubRegs().empty()) 2100755f8b18SMatthias Braun continue; 2101e6cf3d64SCoelacanthus CodeGenSubRegIndex *SubRegIndex = S.first; 2102e6cf3d64SCoelacanthus const CodeGenRegister *SubRegister = S.second; 210391b5cf84SKrzysztof Parzyszek LaneBitmask LaneMask = SubRegIndex->LaneMask; 2104755f8b18SMatthias Braun // Distribute LaneMask to Register Units touched. 21056b1aa5f5SRichard Trieu for (unsigned SUI : SubRegister->getRegUnits()) { 2106755f8b18SMatthias Braun bool Found = false; 2107a366d7b2SOwen Anderson unsigned u = 0; 2108a366d7b2SOwen Anderson for (unsigned RU : RegUnits) { 2109a366d7b2SOwen Anderson if (SUI == RU) { 2110755f8b18SMatthias Braun RegUnitLaneMasks[u] |= LaneMask; 2111755f8b18SMatthias Braun assert(!Found); 2112755f8b18SMatthias Braun Found = true; 2113755f8b18SMatthias Braun } 2114a366d7b2SOwen Anderson ++u; 2115755f8b18SMatthias Braun } 211696e68a0cSYaron Keren (void)Found; 2117755f8b18SMatthias Braun assert(Found); 2118755f8b18SMatthias Braun } 2119755f8b18SMatthias Braun } 2120755f8b18SMatthias Braun Register.setRegUnitLaneMasks(RegUnitLaneMasks); 2121755f8b18SMatthias Braun } 2122755f8b18SMatthias Braun } 2123755f8b18SMatthias Braun 212484bd44ebSJakob Stoklund Olesen void CodeGenRegBank::computeDerivedInfo() { 212584bd44ebSJakob Stoklund Olesen computeComposites(); 2126d01627b2SMatthias Braun computeSubRegLaneMasks(); 21271d7a2c57SAndrew Trick 21281d7a2c57SAndrew Trick // Compute a weight for each register unit created during getSubRegs. 21291d7a2c57SAndrew Trick // This may create adopted register units (with unit # >= NumNativeRegUnits). 21301d7a2c57SAndrew Trick computeRegUnitWeights(); 2131739a0038SAndrew Trick 2132739a0038SAndrew Trick // Compute a unique set of RegUnitSets. One for each RegClass and inferred 2133739a0038SAndrew Trick // supersets for the union of overlapping sets. 2134739a0038SAndrew Trick computeRegUnitSets(); 21353aacca46SAndrew Trick 2136755f8b18SMatthias Braun computeRegUnitLaneMasks(); 2137755f8b18SMatthias Braun 213839d1fad5SMatthias Braun // Compute register class HasDisjunctSubRegs/CoveredBySubRegs flag. 2139a25e13aaSMatthias Braun for (CodeGenRegisterClass &RC : RegClasses) { 2140a25e13aaSMatthias Braun RC.HasDisjunctSubRegs = false; 214139d1fad5SMatthias Braun RC.CoveredBySubRegs = true; 214239d1fad5SMatthias Braun for (const CodeGenRegister *Reg : RC.getMembers()) { 2143a25e13aaSMatthias Braun RC.HasDisjunctSubRegs |= Reg->HasDisjunctSubRegs; 214439d1fad5SMatthias Braun RC.CoveredBySubRegs &= Reg->CoveredBySubRegs; 214539d1fad5SMatthias Braun } 2146a25e13aaSMatthias Braun } 2147a25e13aaSMatthias Braun 21483aacca46SAndrew Trick // Get the weight of each set. 21493aacca46SAndrew Trick for (unsigned Idx = 0, EndIdx = RegUnitSets.size(); Idx != EndIdx; ++Idx) 21503aacca46SAndrew Trick RegUnitSets[Idx].Weight = getRegUnitSetWeight(RegUnitSets[Idx].Units); 21513aacca46SAndrew Trick 21523aacca46SAndrew Trick // Find the order of each set. 21533aacca46SAndrew Trick RegUnitSetOrder.reserve(RegUnitSets.size()); 21543aacca46SAndrew Trick for (unsigned Idx = 0, EndIdx = RegUnitSets.size(); Idx != EndIdx; ++Idx) 21553aacca46SAndrew Trick RegUnitSetOrder.push_back(Idx); 21563aacca46SAndrew Trick 2157efd94c56SFangrui Song llvm::stable_sort(RegUnitSetOrder, [this](unsigned ID1, unsigned ID2) { 21583a377bceSBenjamin Kramer return getRegPressureSet(ID1).Units.size() < 21593a377bceSBenjamin Kramer getRegPressureSet(ID2).Units.size(); 21603a377bceSBenjamin Kramer }); 21613aacca46SAndrew Trick for (unsigned Idx = 0, EndIdx = RegUnitSets.size(); Idx != EndIdx; ++Idx) { 21623aacca46SAndrew Trick RegUnitSets[RegUnitSetOrder[Idx]].Order = Idx; 21633aacca46SAndrew Trick } 216484bd44ebSJakob Stoklund Olesen } 216584bd44ebSJakob Stoklund Olesen 2166c0f97e3dSJakob Stoklund Olesen // 2167c0f97e3dSJakob Stoklund Olesen // Synthesize missing register class intersections. 2168c0f97e3dSJakob Stoklund Olesen // 2169c0f97e3dSJakob Stoklund Olesen // Make sure that sub-classes of RC exists such that getCommonSubClass(RC, X) 2170c0f97e3dSJakob Stoklund Olesen // returns a maximal register class for all X. 2171c0f97e3dSJakob Stoklund Olesen // 2172c0f97e3dSJakob Stoklund Olesen void CodeGenRegBank::inferCommonSubClass(CodeGenRegisterClass *RC) { 2173dacea4bcSDavid Blaikie assert(!RegClasses.empty()); 2174dacea4bcSDavid Blaikie // Stash the iterator to the last element so that this loop doesn't visit 2175dacea4bcSDavid Blaikie // elements added by the getOrCreateSubClass call within it. 2176dacea4bcSDavid Blaikie for (auto I = RegClasses.begin(), E = std::prev(RegClasses.end()); 2177dacea4bcSDavid Blaikie I != std::next(E); ++I) { 2178c0f97e3dSJakob Stoklund Olesen CodeGenRegisterClass *RC1 = RC; 2179dacea4bcSDavid Blaikie CodeGenRegisterClass *RC2 = &*I; 2180c0f97e3dSJakob Stoklund Olesen if (RC1 == RC2) 2181c0f97e3dSJakob Stoklund Olesen continue; 2182c0f97e3dSJakob Stoklund Olesen 2183c0f97e3dSJakob Stoklund Olesen // Compute the set intersection of RC1 and RC2. 2184be2edf30SOwen Anderson const CodeGenRegister::Vec &Memb1 = RC1->getMembers(); 2185be2edf30SOwen Anderson const CodeGenRegister::Vec &Memb2 = RC2->getMembers(); 2186be2edf30SOwen Anderson CodeGenRegister::Vec Intersection; 2187d5aecb94SBenjamin Kramer std::set_intersection(Memb1.begin(), Memb1.end(), Memb2.begin(), 2188d5aecb94SBenjamin Kramer Memb2.end(), 2189d5aecb94SBenjamin Kramer std::inserter(Intersection, Intersection.begin()), 2190d5aecb94SBenjamin Kramer deref<std::less<>>()); 2191c0f97e3dSJakob Stoklund Olesen 2192c0f97e3dSJakob Stoklund Olesen // Skip disjoint class pairs. 2193c0f97e3dSJakob Stoklund Olesen if (Intersection.empty()) 2194c0f97e3dSJakob Stoklund Olesen continue; 2195c0f97e3dSJakob Stoklund Olesen 2196c0f97e3dSJakob Stoklund Olesen // If RC1 and RC2 have different spill sizes or alignments, use the 2197779d98e1SKrzysztof Parzyszek // stricter one for sub-classing. If they are equal, prefer RC1. 2198779d98e1SKrzysztof Parzyszek if (RC2->RSI.hasStricterSpillThan(RC1->RSI)) 2199c0f97e3dSJakob Stoklund Olesen std::swap(RC1, RC2); 2200c0f97e3dSJakob Stoklund Olesen 2201c0f97e3dSJakob Stoklund Olesen getOrCreateSubClass(RC1, &Intersection, 2202c0f97e3dSJakob Stoklund Olesen RC1->getName() + "_and_" + RC2->getName()); 2203c0f97e3dSJakob Stoklund Olesen } 2204c0f97e3dSJakob Stoklund Olesen } 2205c0f97e3dSJakob Stoklund Olesen 220603efe84dSJakob Stoklund Olesen // 22076a5f0a19SJakob Stoklund Olesen // Synthesize missing sub-classes for getSubClassWithSubReg(). 22086a5f0a19SJakob Stoklund Olesen // 22096a5f0a19SJakob Stoklund Olesen // Make sure that the set of registers in RC with a given SubIdx sub-register 22106a5f0a19SJakob Stoklund Olesen // form a register class. Update RC->SubClassWithSubReg. 22116a5f0a19SJakob Stoklund Olesen // 22126a5f0a19SJakob Stoklund Olesen void CodeGenRegBank::inferSubClassWithSubReg(CodeGenRegisterClass *RC) { 22136a5f0a19SJakob Stoklund Olesen // Map SubRegIndex to set of registers in RC supporting that SubRegIndex. 2214be2edf30SOwen Anderson typedef std::map<const CodeGenSubRegIndex *, CodeGenRegister::Vec, 2215d5aecb94SBenjamin Kramer deref<std::less<>>> 2216d5aecb94SBenjamin Kramer SubReg2SetMap; 221703efe84dSJakob Stoklund Olesen 221803efe84dSJakob Stoklund Olesen // Compute the set of registers supporting each SubRegIndex. 221903efe84dSJakob Stoklund Olesen SubReg2SetMap SRSets; 2220be2edf30SOwen Anderson for (const auto R : RC->getMembers()) { 2221eb0c510eSKrzysztof Parzyszek if (R->Artificial) 2222eb0c510eSKrzysztof Parzyszek continue; 2223be2edf30SOwen Anderson const CodeGenRegister::SubRegMap &SRM = R->getSubRegs(); 2224e6cf3d64SCoelacanthus for (auto I : SRM) { 2225e6cf3d64SCoelacanthus if (!I.first->Artificial) 2226e6cf3d64SCoelacanthus SRSets[I.first].push_back(R); 222703efe84dSJakob Stoklund Olesen } 2228eb0c510eSKrzysztof Parzyszek } 222903efe84dSJakob Stoklund Olesen 2230be2edf30SOwen Anderson for (auto I : SRSets) 2231be2edf30SOwen Anderson sortAndUniqueRegisters(I.second); 2232be2edf30SOwen Anderson 223303efe84dSJakob Stoklund Olesen // Find matching classes for all SRSets entries. Iterate in SubRegIndex 223403efe84dSJakob Stoklund Olesen // numerical order to visit synthetic indices last. 22358f25d3bcSDavid Blaikie for (const auto &SubIdx : SubRegIndices) { 2236eb0c510eSKrzysztof Parzyszek if (SubIdx.Artificial) 2237eb0c510eSKrzysztof Parzyszek continue; 22385be6699cSDavid Blaikie SubReg2SetMap::const_iterator I = SRSets.find(&SubIdx); 223903efe84dSJakob Stoklund Olesen // Unsupported SubRegIndex. Skip it. 224003efe84dSJakob Stoklund Olesen if (I == SRSets.end()) 224103efe84dSJakob Stoklund Olesen continue; 22423a541b04SJakob Stoklund Olesen // In most cases, all RC registers support the SubRegIndex. 22436a5f0a19SJakob Stoklund Olesen if (I->second.size() == RC->getMembers().size()) { 22445be6699cSDavid Blaikie RC->setSubClassWithSubReg(&SubIdx, RC); 224503efe84dSJakob Stoklund Olesen continue; 22463a541b04SJakob Stoklund Olesen } 224703efe84dSJakob Stoklund Olesen // This is a real subset. See if we have a matching class. 22487ebc6b05SJakob Stoklund Olesen CodeGenRegisterClass *SubRC = 22496a5f0a19SJakob Stoklund Olesen getOrCreateSubClass(RC, &I->second, 22506a5f0a19SJakob Stoklund Olesen RC->getName() + "_with_" + I->first->getName()); 22515be6699cSDavid Blaikie RC->setSubClassWithSubReg(&SubIdx, SubRC); 22526a5f0a19SJakob Stoklund Olesen } 225303efe84dSJakob Stoklund Olesen } 2254c0f97e3dSJakob Stoklund Olesen 22556a5f0a19SJakob Stoklund Olesen // 2256b92f557cSJakob Stoklund Olesen // Synthesize missing sub-classes of RC for getMatchingSuperRegClass(). 2257b92f557cSJakob Stoklund Olesen // 2258b92f557cSJakob Stoklund Olesen // Create sub-classes of RC such that getMatchingSuperRegClass(RC, SubIdx, X) 2259b92f557cSJakob Stoklund Olesen // has a maximal result for any SubIdx and any X >= FirstSubRegRC. 2260b92f557cSJakob Stoklund Olesen // 2261b92f557cSJakob Stoklund Olesen 2262b92f557cSJakob Stoklund Olesen void CodeGenRegBank::inferMatchingSuperRegClass(CodeGenRegisterClass *RC, 22630bc23e33SDavid Blaikie std::list<CodeGenRegisterClass>::iterator FirstSubRegRC) { 2264b92f557cSJakob Stoklund Olesen SmallVector<std::pair<const CodeGenRegister*, 2265b92f557cSJakob Stoklund Olesen const CodeGenRegister*>, 16> SSPairs; 226650ecd0ffSJakob Stoklund Olesen BitVector TopoSigs(getNumTopoSigs()); 2267b92f557cSJakob Stoklund Olesen 2268b92f557cSJakob Stoklund Olesen // Iterate in SubRegIndex numerical order to visit synthetic indices last. 22698f25d3bcSDavid Blaikie for (auto &SubIdx : SubRegIndices) { 2270b92f557cSJakob Stoklund Olesen // Skip indexes that aren't fully supported by RC's registers. This was 2271b92f557cSJakob Stoklund Olesen // computed by inferSubClassWithSubReg() above which should have been 2272b92f557cSJakob Stoklund Olesen // called first. 22735be6699cSDavid Blaikie if (RC->getSubClassWithSubReg(&SubIdx) != RC) 2274b92f557cSJakob Stoklund Olesen continue; 2275b92f557cSJakob Stoklund Olesen 2276b92f557cSJakob Stoklund Olesen // Build list of (Super, Sub) pairs for this SubIdx. 2277b92f557cSJakob Stoklund Olesen SSPairs.clear(); 227850ecd0ffSJakob Stoklund Olesen TopoSigs.reset(); 2279be2edf30SOwen Anderson for (const auto Super : RC->getMembers()) { 22805be6699cSDavid Blaikie const CodeGenRegister *Sub = Super->getSubRegs().find(&SubIdx)->second; 2281b92f557cSJakob Stoklund Olesen assert(Sub && "Missing sub-register"); 2282b92f557cSJakob Stoklund Olesen SSPairs.push_back(std::make_pair(Super, Sub)); 228350ecd0ffSJakob Stoklund Olesen TopoSigs.set(Sub->getTopoSig()); 2284b92f557cSJakob Stoklund Olesen } 2285b92f557cSJakob Stoklund Olesen 2286b92f557cSJakob Stoklund Olesen // Iterate over sub-register class candidates. Ignore classes created by 2287b92f557cSJakob Stoklund Olesen // this loop. They will never be useful. 22880bc23e33SDavid Blaikie // Store an iterator to the last element (not end) so that this loop doesn't 22890bc23e33SDavid Blaikie // visit newly inserted elements. 2290dacea4bcSDavid Blaikie assert(!RegClasses.empty()); 22910bc23e33SDavid Blaikie for (auto I = FirstSubRegRC, E = std::prev(RegClasses.end()); 2292dacea4bcSDavid Blaikie I != std::next(E); ++I) { 2293dacea4bcSDavid Blaikie CodeGenRegisterClass &SubRC = *I; 2294fd974949SKrzysztof Parzyszek if (SubRC.Artificial) 2295fd974949SKrzysztof Parzyszek continue; 229650ecd0ffSJakob Stoklund Olesen // Topological shortcut: SubRC members have the wrong shape. 2297c0bb5cabSDavid Blaikie if (!TopoSigs.anyCommon(SubRC.getTopoSigs())) 229850ecd0ffSJakob Stoklund Olesen continue; 2299b92f557cSJakob Stoklund Olesen // Compute the subset of RC that maps into SubRC. 2300be2edf30SOwen Anderson CodeGenRegister::Vec SubSetVec; 2301b92f557cSJakob Stoklund Olesen for (unsigned i = 0, e = SSPairs.size(); i != e; ++i) 2302c0bb5cabSDavid Blaikie if (SubRC.contains(SSPairs[i].second)) 2303be2edf30SOwen Anderson SubSetVec.push_back(SSPairs[i].first); 2304be2edf30SOwen Anderson 2305be2edf30SOwen Anderson if (SubSetVec.empty()) 2306b92f557cSJakob Stoklund Olesen continue; 2307be2edf30SOwen Anderson 2308b92f557cSJakob Stoklund Olesen // RC injects completely into SubRC. 2309be2edf30SOwen Anderson sortAndUniqueRegisters(SubSetVec); 2310be2edf30SOwen Anderson if (SubSetVec.size() == SSPairs.size()) { 2311c0bb5cabSDavid Blaikie SubRC.addSuperRegClass(&SubIdx, RC); 2312b92f557cSJakob Stoklund Olesen continue; 2313c7b437aeSJakob Stoklund Olesen } 2314be2edf30SOwen Anderson 2315b92f557cSJakob Stoklund Olesen // Only a subset of RC maps into SubRC. Make sure it is represented by a 2316b92f557cSJakob Stoklund Olesen // class. 2317be2edf30SOwen Anderson getOrCreateSubClass(RC, &SubSetVec, RC->getName() + "_with_" + 23185be6699cSDavid Blaikie SubIdx.getName() + "_in_" + 2319c0bb5cabSDavid Blaikie SubRC.getName()); 2320b92f557cSJakob Stoklund Olesen } 2321b92f557cSJakob Stoklund Olesen } 2322b92f557cSJakob Stoklund Olesen } 2323b92f557cSJakob Stoklund Olesen 2324b92f557cSJakob Stoklund Olesen // 23256a5f0a19SJakob Stoklund Olesen // Infer missing register classes. 23266a5f0a19SJakob Stoklund Olesen // 23276a5f0a19SJakob Stoklund Olesen void CodeGenRegBank::computeInferredRegisterClasses() { 23280bc23e33SDavid Blaikie assert(!RegClasses.empty()); 23296a5f0a19SJakob Stoklund Olesen // When this function is called, the register classes have not been sorted 23306a5f0a19SJakob Stoklund Olesen // and assigned EnumValues yet. That means getSubClasses(), 23316a5f0a19SJakob Stoklund Olesen // getSuperClasses(), and hasSubClass() functions are defunct. 23320bc23e33SDavid Blaikie 23330bc23e33SDavid Blaikie // Use one-before-the-end so it doesn't move forward when new elements are 23340bc23e33SDavid Blaikie // added. 23350bc23e33SDavid Blaikie auto FirstNewRC = std::prev(RegClasses.end()); 23366a5f0a19SJakob Stoklund Olesen 23376a5f0a19SJakob Stoklund Olesen // Visit all register classes, including the ones being added by the loop. 2338c0bb5cabSDavid Blaikie // Watch out for iterator invalidation here. 23390bc23e33SDavid Blaikie for (auto I = RegClasses.begin(), E = RegClasses.end(); I != E; ++I) { 23400bc23e33SDavid Blaikie CodeGenRegisterClass *RC = &*I; 2341eb0c510eSKrzysztof Parzyszek if (RC->Artificial) 2342eb0c510eSKrzysztof Parzyszek continue; 23436a5f0a19SJakob Stoklund Olesen 23446a5f0a19SJakob Stoklund Olesen // Synthesize answers for getSubClassWithSubReg(). 23456a5f0a19SJakob Stoklund Olesen inferSubClassWithSubReg(RC); 23466a5f0a19SJakob Stoklund Olesen 2347c0f97e3dSJakob Stoklund Olesen // Synthesize answers for getCommonSubClass(). 23486a5f0a19SJakob Stoklund Olesen inferCommonSubClass(RC); 2349b92f557cSJakob Stoklund Olesen 2350b92f557cSJakob Stoklund Olesen // Synthesize answers for getMatchingSuperRegClass(). 2351b92f557cSJakob Stoklund Olesen inferMatchingSuperRegClass(RC); 2352b92f557cSJakob Stoklund Olesen 2353b92f557cSJakob Stoklund Olesen // New register classes are created while this loop is running, and we need 2354b92f557cSJakob Stoklund Olesen // to visit all of them. I particular, inferMatchingSuperRegClass needs 2355b92f557cSJakob Stoklund Olesen // to match old super-register classes with sub-register classes created 2356b92f557cSJakob Stoklund Olesen // after inferMatchingSuperRegClass was called. At this point, 2357b92f557cSJakob Stoklund Olesen // inferMatchingSuperRegClass has checked SuperRC = [0..rci] with SubRC = 2358b92f557cSJakob Stoklund Olesen // [0..FirstNewRC). We need to cover SubRC = [FirstNewRC..rci]. 23590bc23e33SDavid Blaikie if (I == FirstNewRC) { 23600bc23e33SDavid Blaikie auto NextNewRC = std::prev(RegClasses.end()); 23610bc23e33SDavid Blaikie for (auto I2 = RegClasses.begin(), E2 = std::next(FirstNewRC); I2 != E2; 23620bc23e33SDavid Blaikie ++I2) 23630bc23e33SDavid Blaikie inferMatchingSuperRegClass(&*I2, E2); 2364b92f557cSJakob Stoklund Olesen FirstNewRC = NextNewRC; 2365b92f557cSJakob Stoklund Olesen } 236603efe84dSJakob Stoklund Olesen } 236703efe84dSJakob Stoklund Olesen } 236803efe84dSJakob Stoklund Olesen 236922ea424dSJakob Stoklund Olesen /// getRegisterClassForRegister - Find the register class that contains the 237022ea424dSJakob Stoklund Olesen /// specified physical register. If the register is not in a register class, 237122ea424dSJakob Stoklund Olesen /// return null. If the register is in multiple classes, and the classes have a 237222ea424dSJakob Stoklund Olesen /// superset-subset relationship and the same set of types, return the 237322ea424dSJakob Stoklund Olesen /// superclass. Otherwise return null. 237422ea424dSJakob Stoklund Olesen const CodeGenRegisterClass* 237522ea424dSJakob Stoklund Olesen CodeGenRegBank::getRegClassForRegister(Record *R) { 2376d7bc5c26SJakob Stoklund Olesen const CodeGenRegister *Reg = getReg(R); 237724064771SCraig Topper const CodeGenRegisterClass *FoundRC = nullptr; 2378dacea4bcSDavid Blaikie for (const auto &RC : getRegClasses()) { 2379d7bc5c26SJakob Stoklund Olesen if (!RC.contains(Reg)) 238022ea424dSJakob Stoklund Olesen continue; 238122ea424dSJakob Stoklund Olesen 238222ea424dSJakob Stoklund Olesen // If this is the first class that contains the register, 238322ea424dSJakob Stoklund Olesen // make a note of it and go on to the next class. 238422ea424dSJakob Stoklund Olesen if (!FoundRC) { 238522ea424dSJakob Stoklund Olesen FoundRC = &RC; 238622ea424dSJakob Stoklund Olesen continue; 238722ea424dSJakob Stoklund Olesen } 238822ea424dSJakob Stoklund Olesen 238922ea424dSJakob Stoklund Olesen // If a register's classes have different types, return null. 239022ea424dSJakob Stoklund Olesen if (RC.getValueTypes() != FoundRC->getValueTypes()) 239124064771SCraig Topper return nullptr; 239222ea424dSJakob Stoklund Olesen 239322ea424dSJakob Stoklund Olesen // Check to see if the previously found class that contains 239422ea424dSJakob Stoklund Olesen // the register is a subclass of the current class. If so, 239522ea424dSJakob Stoklund Olesen // prefer the superclass. 2396d7bc5c26SJakob Stoklund Olesen if (RC.hasSubClass(FoundRC)) { 239722ea424dSJakob Stoklund Olesen FoundRC = &RC; 239822ea424dSJakob Stoklund Olesen continue; 239922ea424dSJakob Stoklund Olesen } 240022ea424dSJakob Stoklund Olesen 240122ea424dSJakob Stoklund Olesen // Check to see if the previously found class that contains 240222ea424dSJakob Stoklund Olesen // the register is a superclass of the current class. If so, 240322ea424dSJakob Stoklund Olesen // prefer the superclass. 2404d7bc5c26SJakob Stoklund Olesen if (FoundRC->hasSubClass(&RC)) 240522ea424dSJakob Stoklund Olesen continue; 240622ea424dSJakob Stoklund Olesen 240722ea424dSJakob Stoklund Olesen // Multiple classes, and neither is a superclass of the other. 240822ea424dSJakob Stoklund Olesen // Return null. 240924064771SCraig Topper return nullptr; 241022ea424dSJakob Stoklund Olesen } 241122ea424dSJakob Stoklund Olesen return FoundRC; 241222ea424dSJakob Stoklund Olesen } 2413c3abb0f6SJakob Stoklund Olesen 24143e45c702SMatt Arsenault const CodeGenRegisterClass * 24153e45c702SMatt Arsenault CodeGenRegBank::getMinimalPhysRegClass(Record *RegRecord, 24163e45c702SMatt Arsenault ValueTypeByHwMode *VT) { 24173e45c702SMatt Arsenault const CodeGenRegister *Reg = getReg(RegRecord); 24183e45c702SMatt Arsenault const CodeGenRegisterClass *BestRC = nullptr; 24193e45c702SMatt Arsenault for (const auto &RC : getRegClasses()) { 24203e45c702SMatt Arsenault if ((!VT || RC.hasType(*VT)) && 24213e45c702SMatt Arsenault RC.contains(Reg) && (!BestRC || BestRC->hasSubClass(&RC))) 24223e45c702SMatt Arsenault BestRC = &RC; 24233e45c702SMatt Arsenault } 24243e45c702SMatt Arsenault 24253e45c702SMatt Arsenault assert(BestRC && "Couldn't find the register class"); 24263e45c702SMatt Arsenault return BestRC; 24273e45c702SMatt Arsenault } 24283e45c702SMatt Arsenault 2429c3abb0f6SJakob Stoklund Olesen BitVector CodeGenRegBank::computeCoveredRegisters(ArrayRef<Record*> Regs) { 243000296815SJakob Stoklund Olesen SetVector<const CodeGenRegister*> Set; 2431c3abb0f6SJakob Stoklund Olesen 2432c3abb0f6SJakob Stoklund Olesen // First add Regs with all sub-registers. 2433c3abb0f6SJakob Stoklund Olesen for (unsigned i = 0, e = Regs.size(); i != e; ++i) { 2434c3abb0f6SJakob Stoklund Olesen CodeGenRegister *Reg = getReg(Regs[i]); 2435c3abb0f6SJakob Stoklund Olesen if (Set.insert(Reg)) 2436c3abb0f6SJakob Stoklund Olesen // Reg is new, add all sub-registers. 2437c3abb0f6SJakob Stoklund Olesen // The pre-ordering is not important here. 2438f1bb1519SJakob Stoklund Olesen Reg->addSubRegsPreOrder(Set, *this); 2439c3abb0f6SJakob Stoklund Olesen } 2440c3abb0f6SJakob Stoklund Olesen 2441c3abb0f6SJakob Stoklund Olesen // Second, find all super-registers that are completely covered by the set. 2442f43b5995SJakob Stoklund Olesen for (unsigned i = 0; i != Set.size(); ++i) { 2443f43b5995SJakob Stoklund Olesen const CodeGenRegister::SuperRegList &SR = Set[i]->getSuperRegs(); 2444f43b5995SJakob Stoklund Olesen for (unsigned j = 0, e = SR.size(); j != e; ++j) { 244500296815SJakob Stoklund Olesen const CodeGenRegister *Super = SR[j]; 2446f43b5995SJakob Stoklund Olesen if (!Super->CoveredBySubRegs || Set.count(Super)) 2447f43b5995SJakob Stoklund Olesen continue; 2448f43b5995SJakob Stoklund Olesen // This new super-register is covered by its sub-registers. 2449f43b5995SJakob Stoklund Olesen bool AllSubsInSet = true; 2450f43b5995SJakob Stoklund Olesen const CodeGenRegister::SubRegMap &SRM = Super->getSubRegs(); 2451e6cf3d64SCoelacanthus for (auto I : SRM) 2452e6cf3d64SCoelacanthus if (!Set.count(I.second)) { 2453f43b5995SJakob Stoklund Olesen AllSubsInSet = false; 2454f43b5995SJakob Stoklund Olesen break; 2455f43b5995SJakob Stoklund Olesen } 2456f43b5995SJakob Stoklund Olesen // All sub-registers in Set, add Super as well. 2457f43b5995SJakob Stoklund Olesen // We will visit Super later to recheck its super-registers. 2458f43b5995SJakob Stoklund Olesen if (AllSubsInSet) 2459f43b5995SJakob Stoklund Olesen Set.insert(Super); 2460f43b5995SJakob Stoklund Olesen } 2461f43b5995SJakob Stoklund Olesen } 2462c3abb0f6SJakob Stoklund Olesen 2463c3abb0f6SJakob Stoklund Olesen // Convert to BitVector. 2464c3abb0f6SJakob Stoklund Olesen BitVector BV(Registers.size() + 1); 2465c3abb0f6SJakob Stoklund Olesen for (unsigned i = 0, e = Set.size(); i != e; ++i) 2466c3abb0f6SJakob Stoklund Olesen BV.set(Set[i]->EnumValue); 2467c3abb0f6SJakob Stoklund Olesen return BV; 2468c3abb0f6SJakob Stoklund Olesen } 246946a0392cSKrzysztof Parzyszek 247046a0392cSKrzysztof Parzyszek void CodeGenRegBank::printRegUnitName(unsigned Unit) const { 247146a0392cSKrzysztof Parzyszek if (Unit < NumNativeRegUnits) 247246a0392cSKrzysztof Parzyszek dbgs() << ' ' << RegUnits[Unit].Roots[0]->getName(); 247346a0392cSKrzysztof Parzyszek else 247446a0392cSKrzysztof Parzyszek dbgs() << " #" << Unit; 247546a0392cSKrzysztof Parzyszek } 2476