10b57cec5SDimitry Andric ///===- FastISelEmitter.cpp - Generate an instruction selector -------------===// 20b57cec5SDimitry Andric // 30b57cec5SDimitry Andric // Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions. 40b57cec5SDimitry Andric // See https://llvm.org/LICENSE.txt for license information. 50b57cec5SDimitry Andric // SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception 60b57cec5SDimitry Andric // 70b57cec5SDimitry Andric //===----------------------------------------------------------------------===// 80b57cec5SDimitry Andric // 90b57cec5SDimitry Andric // This tablegen backend emits code for use by the "fast" instruction 100b57cec5SDimitry Andric // selection algorithm. See the comments at the top of 110b57cec5SDimitry Andric // lib/CodeGen/SelectionDAG/FastISel.cpp for background. 120b57cec5SDimitry Andric // 130b57cec5SDimitry Andric // This file scans through the target's tablegen instruction-info files 140b57cec5SDimitry Andric // and extracts instructions with obvious-looking patterns, and it emits 150b57cec5SDimitry Andric // code to look up these instructions by type and operator. 160b57cec5SDimitry Andric // 170b57cec5SDimitry Andric //===----------------------------------------------------------------------===// 180b57cec5SDimitry Andric 190b57cec5SDimitry Andric #include "CodeGenDAGPatterns.h" 2081ad6265SDimitry Andric #include "CodeGenInstruction.h" 210b57cec5SDimitry Andric #include "llvm/ADT/StringSwitch.h" 220b57cec5SDimitry Andric #include "llvm/Support/ErrorHandling.h" 230b57cec5SDimitry Andric #include "llvm/TableGen/Error.h" 240b57cec5SDimitry Andric #include "llvm/TableGen/Record.h" 250b57cec5SDimitry Andric #include "llvm/TableGen/TableGenBackend.h" 260b57cec5SDimitry Andric #include <utility> 270b57cec5SDimitry Andric using namespace llvm; 280b57cec5SDimitry Andric 290b57cec5SDimitry Andric 300b57cec5SDimitry Andric /// InstructionMemo - This class holds additional information about an 310b57cec5SDimitry Andric /// instruction needed to emit code for it. 320b57cec5SDimitry Andric /// 330b57cec5SDimitry Andric namespace { 340b57cec5SDimitry Andric struct InstructionMemo { 350b57cec5SDimitry Andric std::string Name; 360b57cec5SDimitry Andric const CodeGenRegisterClass *RC; 370b57cec5SDimitry Andric std::string SubRegNo; 380b57cec5SDimitry Andric std::vector<std::string> PhysRegs; 390b57cec5SDimitry Andric std::string PredicateCheck; 400b57cec5SDimitry Andric 410b57cec5SDimitry Andric InstructionMemo(StringRef Name, const CodeGenRegisterClass *RC, 420b57cec5SDimitry Andric std::string SubRegNo, std::vector<std::string> PhysRegs, 430b57cec5SDimitry Andric std::string PredicateCheck) 440b57cec5SDimitry Andric : Name(Name), RC(RC), SubRegNo(std::move(SubRegNo)), 450b57cec5SDimitry Andric PhysRegs(std::move(PhysRegs)), 460b57cec5SDimitry Andric PredicateCheck(std::move(PredicateCheck)) {} 470b57cec5SDimitry Andric 480b57cec5SDimitry Andric // Make sure we do not copy InstructionMemo. 490b57cec5SDimitry Andric InstructionMemo(const InstructionMemo &Other) = delete; 500b57cec5SDimitry Andric InstructionMemo(InstructionMemo &&Other) = default; 510b57cec5SDimitry Andric }; 520b57cec5SDimitry Andric } // End anonymous namespace 530b57cec5SDimitry Andric 540b57cec5SDimitry Andric /// ImmPredicateSet - This uniques predicates (represented as a string) and 550b57cec5SDimitry Andric /// gives them unique (small) integer ID's that start at 0. 560b57cec5SDimitry Andric namespace { 570b57cec5SDimitry Andric class ImmPredicateSet { 580b57cec5SDimitry Andric DenseMap<TreePattern *, unsigned> ImmIDs; 590b57cec5SDimitry Andric std::vector<TreePredicateFn> PredsByName; 600b57cec5SDimitry Andric public: 610b57cec5SDimitry Andric 620b57cec5SDimitry Andric unsigned getIDFor(TreePredicateFn Pred) { 630b57cec5SDimitry Andric unsigned &Entry = ImmIDs[Pred.getOrigPatFragRecord()]; 640b57cec5SDimitry Andric if (Entry == 0) { 650b57cec5SDimitry Andric PredsByName.push_back(Pred); 660b57cec5SDimitry Andric Entry = PredsByName.size(); 670b57cec5SDimitry Andric } 680b57cec5SDimitry Andric return Entry-1; 690b57cec5SDimitry Andric } 700b57cec5SDimitry Andric 710b57cec5SDimitry Andric const TreePredicateFn &getPredicate(unsigned i) { 720b57cec5SDimitry Andric assert(i < PredsByName.size()); 730b57cec5SDimitry Andric return PredsByName[i]; 740b57cec5SDimitry Andric } 750b57cec5SDimitry Andric 760b57cec5SDimitry Andric typedef std::vector<TreePredicateFn>::const_iterator iterator; 770b57cec5SDimitry Andric iterator begin() const { return PredsByName.begin(); } 780b57cec5SDimitry Andric iterator end() const { return PredsByName.end(); } 790b57cec5SDimitry Andric 800b57cec5SDimitry Andric }; 810b57cec5SDimitry Andric } // End anonymous namespace 820b57cec5SDimitry Andric 830b57cec5SDimitry Andric /// OperandsSignature - This class holds a description of a list of operand 840b57cec5SDimitry Andric /// types. It has utility methods for emitting text based on the operands. 850b57cec5SDimitry Andric /// 860b57cec5SDimitry Andric namespace { 870b57cec5SDimitry Andric struct OperandsSignature { 880b57cec5SDimitry Andric class OpKind { 890b57cec5SDimitry Andric enum { OK_Reg, OK_FP, OK_Imm, OK_Invalid = -1 }; 900b57cec5SDimitry Andric char Repr; 910b57cec5SDimitry Andric public: 920b57cec5SDimitry Andric 930b57cec5SDimitry Andric OpKind() : Repr(OK_Invalid) {} 940b57cec5SDimitry Andric 950b57cec5SDimitry Andric bool operator<(OpKind RHS) const { return Repr < RHS.Repr; } 960b57cec5SDimitry Andric bool operator==(OpKind RHS) const { return Repr == RHS.Repr; } 970b57cec5SDimitry Andric 980b57cec5SDimitry Andric static OpKind getReg() { OpKind K; K.Repr = OK_Reg; return K; } 990b57cec5SDimitry Andric static OpKind getFP() { OpKind K; K.Repr = OK_FP; return K; } 1000b57cec5SDimitry Andric static OpKind getImm(unsigned V) { 1010b57cec5SDimitry Andric assert((unsigned)OK_Imm+V < 128 && 1020b57cec5SDimitry Andric "Too many integer predicates for the 'Repr' char"); 1030b57cec5SDimitry Andric OpKind K; K.Repr = OK_Imm+V; return K; 1040b57cec5SDimitry Andric } 1050b57cec5SDimitry Andric 1060b57cec5SDimitry Andric bool isReg() const { return Repr == OK_Reg; } 1070b57cec5SDimitry Andric bool isFP() const { return Repr == OK_FP; } 1080b57cec5SDimitry Andric bool isImm() const { return Repr >= OK_Imm; } 1090b57cec5SDimitry Andric 1100b57cec5SDimitry Andric unsigned getImmCode() const { assert(isImm()); return Repr-OK_Imm; } 1110b57cec5SDimitry Andric 1120b57cec5SDimitry Andric void printManglingSuffix(raw_ostream &OS, ImmPredicateSet &ImmPredicates, 1130b57cec5SDimitry Andric bool StripImmCodes) const { 1140b57cec5SDimitry Andric if (isReg()) 1150b57cec5SDimitry Andric OS << 'r'; 1160b57cec5SDimitry Andric else if (isFP()) 1170b57cec5SDimitry Andric OS << 'f'; 1180b57cec5SDimitry Andric else { 1190b57cec5SDimitry Andric OS << 'i'; 1200b57cec5SDimitry Andric if (!StripImmCodes) 1210b57cec5SDimitry Andric if (unsigned Code = getImmCode()) 1220b57cec5SDimitry Andric OS << "_" << ImmPredicates.getPredicate(Code-1).getFnName(); 1230b57cec5SDimitry Andric } 1240b57cec5SDimitry Andric } 1250b57cec5SDimitry Andric }; 1260b57cec5SDimitry Andric 1270b57cec5SDimitry Andric 1280b57cec5SDimitry Andric SmallVector<OpKind, 3> Operands; 1290b57cec5SDimitry Andric 1300b57cec5SDimitry Andric bool operator<(const OperandsSignature &O) const { 1310b57cec5SDimitry Andric return Operands < O.Operands; 1320b57cec5SDimitry Andric } 1330b57cec5SDimitry Andric bool operator==(const OperandsSignature &O) const { 1340b57cec5SDimitry Andric return Operands == O.Operands; 1350b57cec5SDimitry Andric } 1360b57cec5SDimitry Andric 1370b57cec5SDimitry Andric bool empty() const { return Operands.empty(); } 1380b57cec5SDimitry Andric 1390b57cec5SDimitry Andric bool hasAnyImmediateCodes() const { 1400b57cec5SDimitry Andric for (unsigned i = 0, e = Operands.size(); i != e; ++i) 1410b57cec5SDimitry Andric if (Operands[i].isImm() && Operands[i].getImmCode() != 0) 1420b57cec5SDimitry Andric return true; 1430b57cec5SDimitry Andric return false; 1440b57cec5SDimitry Andric } 1450b57cec5SDimitry Andric 1460b57cec5SDimitry Andric /// getWithoutImmCodes - Return a copy of this with any immediate codes forced 1470b57cec5SDimitry Andric /// to zero. 1480b57cec5SDimitry Andric OperandsSignature getWithoutImmCodes() const { 1490b57cec5SDimitry Andric OperandsSignature Result; 1500b57cec5SDimitry Andric for (unsigned i = 0, e = Operands.size(); i != e; ++i) 1510b57cec5SDimitry Andric if (!Operands[i].isImm()) 1520b57cec5SDimitry Andric Result.Operands.push_back(Operands[i]); 1530b57cec5SDimitry Andric else 1540b57cec5SDimitry Andric Result.Operands.push_back(OpKind::getImm(0)); 1550b57cec5SDimitry Andric return Result; 1560b57cec5SDimitry Andric } 1570b57cec5SDimitry Andric 1580b57cec5SDimitry Andric void emitImmediatePredicate(raw_ostream &OS, ImmPredicateSet &ImmPredicates) { 1590b57cec5SDimitry Andric bool EmittedAnything = false; 1600b57cec5SDimitry Andric for (unsigned i = 0, e = Operands.size(); i != e; ++i) { 1610b57cec5SDimitry Andric if (!Operands[i].isImm()) continue; 1620b57cec5SDimitry Andric 1630b57cec5SDimitry Andric unsigned Code = Operands[i].getImmCode(); 1640b57cec5SDimitry Andric if (Code == 0) continue; 1650b57cec5SDimitry Andric 1660b57cec5SDimitry Andric if (EmittedAnything) 1670b57cec5SDimitry Andric OS << " &&\n "; 1680b57cec5SDimitry Andric 1690b57cec5SDimitry Andric TreePredicateFn PredFn = ImmPredicates.getPredicate(Code-1); 1700b57cec5SDimitry Andric 1710b57cec5SDimitry Andric // Emit the type check. 1720b57cec5SDimitry Andric TreePattern *TP = PredFn.getOrigPatFragRecord(); 1730b57cec5SDimitry Andric ValueTypeByHwMode VVT = TP->getTree(0)->getType(0); 1740b57cec5SDimitry Andric assert(VVT.isSimple() && 1750b57cec5SDimitry Andric "Cannot use variable value types with fast isel"); 1760b57cec5SDimitry Andric OS << "VT == " << getEnumName(VVT.getSimple().SimpleTy) << " && "; 1770b57cec5SDimitry Andric 1780b57cec5SDimitry Andric OS << PredFn.getFnName() << "(imm" << i <<')'; 1790b57cec5SDimitry Andric EmittedAnything = true; 1800b57cec5SDimitry Andric } 1810b57cec5SDimitry Andric } 1820b57cec5SDimitry Andric 1830b57cec5SDimitry Andric /// initialize - Examine the given pattern and initialize the contents 1840b57cec5SDimitry Andric /// of the Operands array accordingly. Return true if all the operands 1850b57cec5SDimitry Andric /// are supported, false otherwise. 1860b57cec5SDimitry Andric /// 1870b57cec5SDimitry Andric bool initialize(TreePatternNode *InstPatNode, const CodeGenTarget &Target, 1880b57cec5SDimitry Andric MVT::SimpleValueType VT, 1890b57cec5SDimitry Andric ImmPredicateSet &ImmediatePredicates, 1900b57cec5SDimitry Andric const CodeGenRegisterClass *OrigDstRC) { 1910b57cec5SDimitry Andric if (InstPatNode->isLeaf()) 1920b57cec5SDimitry Andric return false; 1930b57cec5SDimitry Andric 1940b57cec5SDimitry Andric if (InstPatNode->getOperator()->getName() == "imm") { 1950b57cec5SDimitry Andric Operands.push_back(OpKind::getImm(0)); 1960b57cec5SDimitry Andric return true; 1970b57cec5SDimitry Andric } 1980b57cec5SDimitry Andric 1990b57cec5SDimitry Andric if (InstPatNode->getOperator()->getName() == "fpimm") { 2000b57cec5SDimitry Andric Operands.push_back(OpKind::getFP()); 2010b57cec5SDimitry Andric return true; 2020b57cec5SDimitry Andric } 2030b57cec5SDimitry Andric 2040b57cec5SDimitry Andric const CodeGenRegisterClass *DstRC = nullptr; 2050b57cec5SDimitry Andric 2060b57cec5SDimitry Andric for (unsigned i = 0, e = InstPatNode->getNumChildren(); i != e; ++i) { 2070b57cec5SDimitry Andric TreePatternNode *Op = InstPatNode->getChild(i); 2080b57cec5SDimitry Andric 2090b57cec5SDimitry Andric // Handle imm operands specially. 2100b57cec5SDimitry Andric if (!Op->isLeaf() && Op->getOperator()->getName() == "imm") { 2110b57cec5SDimitry Andric unsigned PredNo = 0; 2120b57cec5SDimitry Andric if (!Op->getPredicateCalls().empty()) { 2130b57cec5SDimitry Andric TreePredicateFn PredFn = Op->getPredicateCalls()[0].Fn; 2140b57cec5SDimitry Andric // If there is more than one predicate weighing in on this operand 2150b57cec5SDimitry Andric // then we don't handle it. This doesn't typically happen for 2160b57cec5SDimitry Andric // immediates anyway. 2170b57cec5SDimitry Andric if (Op->getPredicateCalls().size() > 1 || 2180b57cec5SDimitry Andric !PredFn.isImmediatePattern() || PredFn.usesOperands()) 2190b57cec5SDimitry Andric return false; 2200b57cec5SDimitry Andric // Ignore any instruction with 'FastIselShouldIgnore', these are 2210b57cec5SDimitry Andric // not needed and just bloat the fast instruction selector. For 2220b57cec5SDimitry Andric // example, X86 doesn't need to generate code to match ADD16ri8 since 2230b57cec5SDimitry Andric // ADD16ri will do just fine. 2240b57cec5SDimitry Andric Record *Rec = PredFn.getOrigPatFragRecord()->getRecord(); 2250b57cec5SDimitry Andric if (Rec->getValueAsBit("FastIselShouldIgnore")) 2260b57cec5SDimitry Andric return false; 2270b57cec5SDimitry Andric 2280b57cec5SDimitry Andric PredNo = ImmediatePredicates.getIDFor(PredFn)+1; 2290b57cec5SDimitry Andric } 2300b57cec5SDimitry Andric 2310b57cec5SDimitry Andric Operands.push_back(OpKind::getImm(PredNo)); 2320b57cec5SDimitry Andric continue; 2330b57cec5SDimitry Andric } 2340b57cec5SDimitry Andric 2350b57cec5SDimitry Andric 2360b57cec5SDimitry Andric // For now, filter out any operand with a predicate. 2370b57cec5SDimitry Andric // For now, filter out any operand with multiple values. 2380b57cec5SDimitry Andric if (!Op->getPredicateCalls().empty() || Op->getNumTypes() != 1) 2390b57cec5SDimitry Andric return false; 2400b57cec5SDimitry Andric 2410b57cec5SDimitry Andric if (!Op->isLeaf()) { 2420b57cec5SDimitry Andric if (Op->getOperator()->getName() == "fpimm") { 2430b57cec5SDimitry Andric Operands.push_back(OpKind::getFP()); 2440b57cec5SDimitry Andric continue; 2450b57cec5SDimitry Andric } 2460b57cec5SDimitry Andric // For now, ignore other non-leaf nodes. 2470b57cec5SDimitry Andric return false; 2480b57cec5SDimitry Andric } 2490b57cec5SDimitry Andric 2500b57cec5SDimitry Andric assert(Op->hasConcreteType(0) && "Type infererence not done?"); 2510b57cec5SDimitry Andric 2520b57cec5SDimitry Andric // For now, all the operands must have the same type (if they aren't 2530b57cec5SDimitry Andric // immediates). Note that this causes us to reject variable sized shifts 2540b57cec5SDimitry Andric // on X86. 2550b57cec5SDimitry Andric if (Op->getSimpleType(0) != VT) 2560b57cec5SDimitry Andric return false; 2570b57cec5SDimitry Andric 2580b57cec5SDimitry Andric DefInit *OpDI = dyn_cast<DefInit>(Op->getLeafValue()); 2590b57cec5SDimitry Andric if (!OpDI) 2600b57cec5SDimitry Andric return false; 2610b57cec5SDimitry Andric Record *OpLeafRec = OpDI->getDef(); 2620b57cec5SDimitry Andric 2630b57cec5SDimitry Andric // For now, the only other thing we accept is register operands. 2640b57cec5SDimitry Andric const CodeGenRegisterClass *RC = nullptr; 2650b57cec5SDimitry Andric if (OpLeafRec->isSubClassOf("RegisterOperand")) 2660b57cec5SDimitry Andric OpLeafRec = OpLeafRec->getValueAsDef("RegClass"); 2670b57cec5SDimitry Andric if (OpLeafRec->isSubClassOf("RegisterClass")) 2680b57cec5SDimitry Andric RC = &Target.getRegisterClass(OpLeafRec); 2690b57cec5SDimitry Andric else if (OpLeafRec->isSubClassOf("Register")) 2700b57cec5SDimitry Andric RC = Target.getRegBank().getRegClassForRegister(OpLeafRec); 2710b57cec5SDimitry Andric else if (OpLeafRec->isSubClassOf("ValueType")) { 2720b57cec5SDimitry Andric RC = OrigDstRC; 2730b57cec5SDimitry Andric } else 2740b57cec5SDimitry Andric return false; 2750b57cec5SDimitry Andric 2760b57cec5SDimitry Andric // For now, this needs to be a register class of some sort. 2770b57cec5SDimitry Andric if (!RC) 2780b57cec5SDimitry Andric return false; 2790b57cec5SDimitry Andric 2800b57cec5SDimitry Andric // For now, all the operands must have the same register class or be 2810b57cec5SDimitry Andric // a strict subclass of the destination. 2820b57cec5SDimitry Andric if (DstRC) { 2830b57cec5SDimitry Andric if (DstRC != RC && !DstRC->hasSubClass(RC)) 2840b57cec5SDimitry Andric return false; 2850b57cec5SDimitry Andric } else 2860b57cec5SDimitry Andric DstRC = RC; 2870b57cec5SDimitry Andric Operands.push_back(OpKind::getReg()); 2880b57cec5SDimitry Andric } 2890b57cec5SDimitry Andric return true; 2900b57cec5SDimitry Andric } 2910b57cec5SDimitry Andric 2920b57cec5SDimitry Andric void PrintParameters(raw_ostream &OS) const { 293fe6060f1SDimitry Andric ListSeparator LS; 2940b57cec5SDimitry Andric for (unsigned i = 0, e = Operands.size(); i != e; ++i) { 295fe6060f1SDimitry Andric OS << LS; 2960b57cec5SDimitry Andric if (Operands[i].isReg()) { 297fe6060f1SDimitry Andric OS << "unsigned Op" << i; 2980b57cec5SDimitry Andric } else if (Operands[i].isImm()) { 2990b57cec5SDimitry Andric OS << "uint64_t imm" << i; 3000b57cec5SDimitry Andric } else if (Operands[i].isFP()) { 3010b57cec5SDimitry Andric OS << "const ConstantFP *f" << i; 3020b57cec5SDimitry Andric } else { 3030b57cec5SDimitry Andric llvm_unreachable("Unknown operand kind!"); 3040b57cec5SDimitry Andric } 3050b57cec5SDimitry Andric } 3060b57cec5SDimitry Andric } 3070b57cec5SDimitry Andric 3080b57cec5SDimitry Andric void PrintArguments(raw_ostream &OS, 3090b57cec5SDimitry Andric const std::vector<std::string> &PR) const { 3100b57cec5SDimitry Andric assert(PR.size() == Operands.size()); 311fe6060f1SDimitry Andric ListSeparator LS; 3120b57cec5SDimitry Andric for (unsigned i = 0, e = Operands.size(); i != e; ++i) { 3130b57cec5SDimitry Andric if (PR[i] != "") 3140b57cec5SDimitry Andric // Implicit physical register operand. 3150b57cec5SDimitry Andric continue; 3160b57cec5SDimitry Andric 317fe6060f1SDimitry Andric OS << LS; 3180b57cec5SDimitry Andric if (Operands[i].isReg()) { 319fe6060f1SDimitry Andric OS << "Op" << i; 3200b57cec5SDimitry Andric } else if (Operands[i].isImm()) { 3210b57cec5SDimitry Andric OS << "imm" << i; 3220b57cec5SDimitry Andric } else if (Operands[i].isFP()) { 3230b57cec5SDimitry Andric OS << "f" << i; 3240b57cec5SDimitry Andric } else { 3250b57cec5SDimitry Andric llvm_unreachable("Unknown operand kind!"); 3260b57cec5SDimitry Andric } 3270b57cec5SDimitry Andric } 3280b57cec5SDimitry Andric } 3290b57cec5SDimitry Andric 3300b57cec5SDimitry Andric void PrintArguments(raw_ostream &OS) const { 331fe6060f1SDimitry Andric ListSeparator LS; 3320b57cec5SDimitry Andric for (unsigned i = 0, e = Operands.size(); i != e; ++i) { 333fe6060f1SDimitry Andric OS << LS; 3340b57cec5SDimitry Andric if (Operands[i].isReg()) { 335fe6060f1SDimitry Andric OS << "Op" << i; 3360b57cec5SDimitry Andric } else if (Operands[i].isImm()) { 3370b57cec5SDimitry Andric OS << "imm" << i; 3380b57cec5SDimitry Andric } else if (Operands[i].isFP()) { 3390b57cec5SDimitry Andric OS << "f" << i; 3400b57cec5SDimitry Andric } else { 3410b57cec5SDimitry Andric llvm_unreachable("Unknown operand kind!"); 3420b57cec5SDimitry Andric } 3430b57cec5SDimitry Andric } 3440b57cec5SDimitry Andric } 3450b57cec5SDimitry Andric 3460b57cec5SDimitry Andric 3470b57cec5SDimitry Andric void PrintManglingSuffix(raw_ostream &OS, const std::vector<std::string> &PR, 3480b57cec5SDimitry Andric ImmPredicateSet &ImmPredicates, 3490b57cec5SDimitry Andric bool StripImmCodes = false) const { 3500b57cec5SDimitry Andric for (unsigned i = 0, e = Operands.size(); i != e; ++i) { 3510b57cec5SDimitry Andric if (PR[i] != "") 3520b57cec5SDimitry Andric // Implicit physical register operand. e.g. Instruction::Mul expect to 3530b57cec5SDimitry Andric // select to a binary op. On x86, mul may take a single operand with 3540b57cec5SDimitry Andric // the other operand being implicit. We must emit something that looks 3550b57cec5SDimitry Andric // like a binary instruction except for the very inner fastEmitInst_* 3560b57cec5SDimitry Andric // call. 3570b57cec5SDimitry Andric continue; 3580b57cec5SDimitry Andric Operands[i].printManglingSuffix(OS, ImmPredicates, StripImmCodes); 3590b57cec5SDimitry Andric } 3600b57cec5SDimitry Andric } 3610b57cec5SDimitry Andric 3620b57cec5SDimitry Andric void PrintManglingSuffix(raw_ostream &OS, ImmPredicateSet &ImmPredicates, 3630b57cec5SDimitry Andric bool StripImmCodes = false) const { 3640b57cec5SDimitry Andric for (unsigned i = 0, e = Operands.size(); i != e; ++i) 3650b57cec5SDimitry Andric Operands[i].printManglingSuffix(OS, ImmPredicates, StripImmCodes); 3660b57cec5SDimitry Andric } 3670b57cec5SDimitry Andric }; 3680b57cec5SDimitry Andric } // End anonymous namespace 3690b57cec5SDimitry Andric 3700b57cec5SDimitry Andric namespace { 3710b57cec5SDimitry Andric class FastISelMap { 3720b57cec5SDimitry Andric // A multimap is needed instead of a "plain" map because the key is 3730b57cec5SDimitry Andric // the instruction's complexity (an int) and they are not unique. 3740b57cec5SDimitry Andric typedef std::multimap<int, InstructionMemo> PredMap; 3750b57cec5SDimitry Andric typedef std::map<MVT::SimpleValueType, PredMap> RetPredMap; 3760b57cec5SDimitry Andric typedef std::map<MVT::SimpleValueType, RetPredMap> TypeRetPredMap; 3770b57cec5SDimitry Andric typedef std::map<std::string, TypeRetPredMap> OpcodeTypeRetPredMap; 3780b57cec5SDimitry Andric typedef std::map<OperandsSignature, OpcodeTypeRetPredMap> 3790b57cec5SDimitry Andric OperandsOpcodeTypeRetPredMap; 3800b57cec5SDimitry Andric 3810b57cec5SDimitry Andric OperandsOpcodeTypeRetPredMap SimplePatterns; 3820b57cec5SDimitry Andric 3830b57cec5SDimitry Andric // This is used to check that there are no duplicate predicates 384*bdd1243dSDimitry Andric std::set<std::tuple<OperandsSignature, std::string, MVT::SimpleValueType, 385*bdd1243dSDimitry Andric MVT::SimpleValueType, std::string>> 386*bdd1243dSDimitry Andric SimplePatternsCheck; 3870b57cec5SDimitry Andric 3880b57cec5SDimitry Andric std::map<OperandsSignature, std::vector<OperandsSignature> > 3890b57cec5SDimitry Andric SignaturesWithConstantForms; 3900b57cec5SDimitry Andric 3910b57cec5SDimitry Andric StringRef InstNS; 3920b57cec5SDimitry Andric ImmPredicateSet ImmediatePredicates; 3930b57cec5SDimitry Andric public: 3940b57cec5SDimitry Andric explicit FastISelMap(StringRef InstNS); 3950b57cec5SDimitry Andric 3960b57cec5SDimitry Andric void collectPatterns(CodeGenDAGPatterns &CGP); 3970b57cec5SDimitry Andric void printImmediatePredicates(raw_ostream &OS); 3980b57cec5SDimitry Andric void printFunctionDefinitions(raw_ostream &OS); 3990b57cec5SDimitry Andric private: 4000b57cec5SDimitry Andric void emitInstructionCode(raw_ostream &OS, 4010b57cec5SDimitry Andric const OperandsSignature &Operands, 4020b57cec5SDimitry Andric const PredMap &PM, 4030b57cec5SDimitry Andric const std::string &RetVTName); 4040b57cec5SDimitry Andric }; 4050b57cec5SDimitry Andric } // End anonymous namespace 4060b57cec5SDimitry Andric 4070b57cec5SDimitry Andric static std::string getOpcodeName(Record *Op, CodeGenDAGPatterns &CGP) { 4085ffd83dbSDimitry Andric return std::string(CGP.getSDNodeInfo(Op).getEnumName()); 4090b57cec5SDimitry Andric } 4100b57cec5SDimitry Andric 4110b57cec5SDimitry Andric static std::string getLegalCName(std::string OpName) { 4120b57cec5SDimitry Andric std::string::size_type pos = OpName.find("::"); 4130b57cec5SDimitry Andric if (pos != std::string::npos) 4140b57cec5SDimitry Andric OpName.replace(pos, 2, "_"); 4150b57cec5SDimitry Andric return OpName; 4160b57cec5SDimitry Andric } 4170b57cec5SDimitry Andric 4180b57cec5SDimitry Andric FastISelMap::FastISelMap(StringRef instns) : InstNS(instns) {} 4190b57cec5SDimitry Andric 4200b57cec5SDimitry Andric static std::string PhyRegForNode(TreePatternNode *Op, 4210b57cec5SDimitry Andric const CodeGenTarget &Target) { 4220b57cec5SDimitry Andric std::string PhysReg; 4230b57cec5SDimitry Andric 4240b57cec5SDimitry Andric if (!Op->isLeaf()) 4250b57cec5SDimitry Andric return PhysReg; 4260b57cec5SDimitry Andric 4270b57cec5SDimitry Andric Record *OpLeafRec = cast<DefInit>(Op->getLeafValue())->getDef(); 4280b57cec5SDimitry Andric if (!OpLeafRec->isSubClassOf("Register")) 4290b57cec5SDimitry Andric return PhysReg; 4300b57cec5SDimitry Andric 4310b57cec5SDimitry Andric PhysReg += cast<StringInit>(OpLeafRec->getValue("Namespace")->getValue()) 4320b57cec5SDimitry Andric ->getValue(); 4330b57cec5SDimitry Andric PhysReg += "::"; 4340b57cec5SDimitry Andric PhysReg += Target.getRegBank().getReg(OpLeafRec)->getName(); 4350b57cec5SDimitry Andric return PhysReg; 4360b57cec5SDimitry Andric } 4370b57cec5SDimitry Andric 4380b57cec5SDimitry Andric void FastISelMap::collectPatterns(CodeGenDAGPatterns &CGP) { 4390b57cec5SDimitry Andric const CodeGenTarget &Target = CGP.getTargetInfo(); 4400b57cec5SDimitry Andric 4410b57cec5SDimitry Andric // Scan through all the patterns and record the simple ones. 4420b57cec5SDimitry Andric for (CodeGenDAGPatterns::ptm_iterator I = CGP.ptm_begin(), 4430b57cec5SDimitry Andric E = CGP.ptm_end(); I != E; ++I) { 4440b57cec5SDimitry Andric const PatternToMatch &Pattern = *I; 4450b57cec5SDimitry Andric 4460b57cec5SDimitry Andric // For now, just look at Instructions, so that we don't have to worry 4470b57cec5SDimitry Andric // about emitting multiple instructions for a pattern. 4480b57cec5SDimitry Andric TreePatternNode *Dst = Pattern.getDstPattern(); 4490b57cec5SDimitry Andric if (Dst->isLeaf()) continue; 4500b57cec5SDimitry Andric Record *Op = Dst->getOperator(); 4510b57cec5SDimitry Andric if (!Op->isSubClassOf("Instruction")) 4520b57cec5SDimitry Andric continue; 4530b57cec5SDimitry Andric CodeGenInstruction &II = CGP.getTargetInfo().getInstruction(Op); 4540b57cec5SDimitry Andric if (II.Operands.empty()) 4550b57cec5SDimitry Andric continue; 4560b57cec5SDimitry Andric 4570b57cec5SDimitry Andric // Allow instructions to be marked as unavailable for FastISel for 4580b57cec5SDimitry Andric // certain cases, i.e. an ISA has two 'and' instruction which differ 4590b57cec5SDimitry Andric // by what registers they can use but are otherwise identical for 4600b57cec5SDimitry Andric // codegen purposes. 4610b57cec5SDimitry Andric if (II.FastISelShouldIgnore) 4620b57cec5SDimitry Andric continue; 4630b57cec5SDimitry Andric 4640b57cec5SDimitry Andric // For now, ignore multi-instruction patterns. 4650b57cec5SDimitry Andric bool MultiInsts = false; 4660b57cec5SDimitry Andric for (unsigned i = 0, e = Dst->getNumChildren(); i != e; ++i) { 4670b57cec5SDimitry Andric TreePatternNode *ChildOp = Dst->getChild(i); 4680b57cec5SDimitry Andric if (ChildOp->isLeaf()) 4690b57cec5SDimitry Andric continue; 4700b57cec5SDimitry Andric if (ChildOp->getOperator()->isSubClassOf("Instruction")) { 4710b57cec5SDimitry Andric MultiInsts = true; 4720b57cec5SDimitry Andric break; 4730b57cec5SDimitry Andric } 4740b57cec5SDimitry Andric } 4750b57cec5SDimitry Andric if (MultiInsts) 4760b57cec5SDimitry Andric continue; 4770b57cec5SDimitry Andric 4780b57cec5SDimitry Andric // For now, ignore instructions where the first operand is not an 4790b57cec5SDimitry Andric // output register. 4800b57cec5SDimitry Andric const CodeGenRegisterClass *DstRC = nullptr; 4810b57cec5SDimitry Andric std::string SubRegNo; 4820b57cec5SDimitry Andric if (Op->getName() != "EXTRACT_SUBREG") { 4830b57cec5SDimitry Andric Record *Op0Rec = II.Operands[0].Rec; 4840b57cec5SDimitry Andric if (Op0Rec->isSubClassOf("RegisterOperand")) 4850b57cec5SDimitry Andric Op0Rec = Op0Rec->getValueAsDef("RegClass"); 4860b57cec5SDimitry Andric if (!Op0Rec->isSubClassOf("RegisterClass")) 4870b57cec5SDimitry Andric continue; 4880b57cec5SDimitry Andric DstRC = &Target.getRegisterClass(Op0Rec); 4890b57cec5SDimitry Andric if (!DstRC) 4900b57cec5SDimitry Andric continue; 4910b57cec5SDimitry Andric } else { 4920b57cec5SDimitry Andric // If this isn't a leaf, then continue since the register classes are 4930b57cec5SDimitry Andric // a bit too complicated for now. 4940b57cec5SDimitry Andric if (!Dst->getChild(1)->isLeaf()) continue; 4950b57cec5SDimitry Andric 4960b57cec5SDimitry Andric DefInit *SR = dyn_cast<DefInit>(Dst->getChild(1)->getLeafValue()); 4970b57cec5SDimitry Andric if (SR) 4980b57cec5SDimitry Andric SubRegNo = getQualifiedName(SR->getDef()); 4990b57cec5SDimitry Andric else 5000b57cec5SDimitry Andric SubRegNo = Dst->getChild(1)->getLeafValue()->getAsString(); 5010b57cec5SDimitry Andric } 5020b57cec5SDimitry Andric 5030b57cec5SDimitry Andric // Inspect the pattern. 5040b57cec5SDimitry Andric TreePatternNode *InstPatNode = Pattern.getSrcPattern(); 5050b57cec5SDimitry Andric if (!InstPatNode) continue; 5060b57cec5SDimitry Andric if (InstPatNode->isLeaf()) continue; 5070b57cec5SDimitry Andric 5080b57cec5SDimitry Andric // Ignore multiple result nodes for now. 5090b57cec5SDimitry Andric if (InstPatNode->getNumTypes() > 1) continue; 5100b57cec5SDimitry Andric 5110b57cec5SDimitry Andric Record *InstPatOp = InstPatNode->getOperator(); 5120b57cec5SDimitry Andric std::string OpcodeName = getOpcodeName(InstPatOp, CGP); 5130b57cec5SDimitry Andric MVT::SimpleValueType RetVT = MVT::isVoid; 5140b57cec5SDimitry Andric if (InstPatNode->getNumTypes()) RetVT = InstPatNode->getSimpleType(0); 5150b57cec5SDimitry Andric MVT::SimpleValueType VT = RetVT; 5160b57cec5SDimitry Andric if (InstPatNode->getNumChildren()) { 5170b57cec5SDimitry Andric assert(InstPatNode->getChild(0)->getNumTypes() == 1); 5180b57cec5SDimitry Andric VT = InstPatNode->getChild(0)->getSimpleType(0); 5190b57cec5SDimitry Andric } 5200b57cec5SDimitry Andric 5210b57cec5SDimitry Andric // For now, filter out any instructions with predicates. 5220b57cec5SDimitry Andric if (!InstPatNode->getPredicateCalls().empty()) 5230b57cec5SDimitry Andric continue; 5240b57cec5SDimitry Andric 5250b57cec5SDimitry Andric // Check all the operands. 5260b57cec5SDimitry Andric OperandsSignature Operands; 5270b57cec5SDimitry Andric if (!Operands.initialize(InstPatNode, Target, VT, ImmediatePredicates, 5280b57cec5SDimitry Andric DstRC)) 5290b57cec5SDimitry Andric continue; 5300b57cec5SDimitry Andric 5310b57cec5SDimitry Andric std::vector<std::string> PhysRegInputs; 5320b57cec5SDimitry Andric if (InstPatNode->getOperator()->getName() == "imm" || 5330b57cec5SDimitry Andric InstPatNode->getOperator()->getName() == "fpimm") 5340b57cec5SDimitry Andric PhysRegInputs.push_back(""); 5350b57cec5SDimitry Andric else { 5360b57cec5SDimitry Andric // Compute the PhysRegs used by the given pattern, and check that 5370b57cec5SDimitry Andric // the mapping from the src to dst patterns is simple. 5380b57cec5SDimitry Andric bool FoundNonSimplePattern = false; 5390b57cec5SDimitry Andric unsigned DstIndex = 0; 5400b57cec5SDimitry Andric for (unsigned i = 0, e = InstPatNode->getNumChildren(); i != e; ++i) { 5410b57cec5SDimitry Andric std::string PhysReg = PhyRegForNode(InstPatNode->getChild(i), Target); 5420b57cec5SDimitry Andric if (PhysReg.empty()) { 5430b57cec5SDimitry Andric if (DstIndex >= Dst->getNumChildren() || 5440b57cec5SDimitry Andric Dst->getChild(DstIndex)->getName() != 5450b57cec5SDimitry Andric InstPatNode->getChild(i)->getName()) { 5460b57cec5SDimitry Andric FoundNonSimplePattern = true; 5470b57cec5SDimitry Andric break; 5480b57cec5SDimitry Andric } 5490b57cec5SDimitry Andric ++DstIndex; 5500b57cec5SDimitry Andric } 5510b57cec5SDimitry Andric 5520b57cec5SDimitry Andric PhysRegInputs.push_back(PhysReg); 5530b57cec5SDimitry Andric } 5540b57cec5SDimitry Andric 5550b57cec5SDimitry Andric if (Op->getName() != "EXTRACT_SUBREG" && DstIndex < Dst->getNumChildren()) 5560b57cec5SDimitry Andric FoundNonSimplePattern = true; 5570b57cec5SDimitry Andric 5580b57cec5SDimitry Andric if (FoundNonSimplePattern) 5590b57cec5SDimitry Andric continue; 5600b57cec5SDimitry Andric } 5610b57cec5SDimitry Andric 5620b57cec5SDimitry Andric // Check if the operands match one of the patterns handled by FastISel. 5630b57cec5SDimitry Andric std::string ManglingSuffix; 5640b57cec5SDimitry Andric raw_string_ostream SuffixOS(ManglingSuffix); 5650b57cec5SDimitry Andric Operands.PrintManglingSuffix(SuffixOS, ImmediatePredicates, true); 5660b57cec5SDimitry Andric if (!StringSwitch<bool>(ManglingSuffix) 5670b57cec5SDimitry Andric .Cases("", "r", "rr", "ri", "i", "f", true) 5680b57cec5SDimitry Andric .Default(false)) 5690b57cec5SDimitry Andric continue; 5700b57cec5SDimitry Andric 5710b57cec5SDimitry Andric // Get the predicate that guards this pattern. 5720b57cec5SDimitry Andric std::string PredicateCheck = Pattern.getPredicateCheck(); 5730b57cec5SDimitry Andric 5740b57cec5SDimitry Andric // Ok, we found a pattern that we can handle. Remember it. 5750b57cec5SDimitry Andric InstructionMemo Memo( 5760b57cec5SDimitry Andric Pattern.getDstPattern()->getOperator()->getName(), 5770b57cec5SDimitry Andric DstRC, 5780b57cec5SDimitry Andric SubRegNo, 5790b57cec5SDimitry Andric PhysRegInputs, 5800b57cec5SDimitry Andric PredicateCheck 5810b57cec5SDimitry Andric ); 5820b57cec5SDimitry Andric 5830b57cec5SDimitry Andric int complexity = Pattern.getPatternComplexity(CGP); 5840b57cec5SDimitry Andric 585*bdd1243dSDimitry Andric auto inserted_simple_pattern = SimplePatternsCheck.insert( 586*bdd1243dSDimitry Andric std::make_tuple(Operands, OpcodeName, VT, RetVT, PredicateCheck)); 587*bdd1243dSDimitry Andric if (!inserted_simple_pattern.second) { 5880b57cec5SDimitry Andric PrintFatalError(Pattern.getSrcRecord()->getLoc(), 5890b57cec5SDimitry Andric "Duplicate predicate in FastISel table!"); 5900b57cec5SDimitry Andric } 5910b57cec5SDimitry Andric 5920b57cec5SDimitry Andric // Note: Instructions with the same complexity will appear in the order 5930b57cec5SDimitry Andric // that they are encountered. 5940b57cec5SDimitry Andric SimplePatterns[Operands][OpcodeName][VT][RetVT].emplace(complexity, 5950b57cec5SDimitry Andric std::move(Memo)); 5960b57cec5SDimitry Andric 5970b57cec5SDimitry Andric // If any of the operands were immediates with predicates on them, strip 5980b57cec5SDimitry Andric // them down to a signature that doesn't have predicates so that we can 5990b57cec5SDimitry Andric // associate them with the stripped predicate version. 6000b57cec5SDimitry Andric if (Operands.hasAnyImmediateCodes()) { 6010b57cec5SDimitry Andric SignaturesWithConstantForms[Operands.getWithoutImmCodes()] 6020b57cec5SDimitry Andric .push_back(Operands); 6030b57cec5SDimitry Andric } 6040b57cec5SDimitry Andric } 6050b57cec5SDimitry Andric } 6060b57cec5SDimitry Andric 6070b57cec5SDimitry Andric void FastISelMap::printImmediatePredicates(raw_ostream &OS) { 6080b57cec5SDimitry Andric if (ImmediatePredicates.begin() == ImmediatePredicates.end()) 6090b57cec5SDimitry Andric return; 6100b57cec5SDimitry Andric 6110b57cec5SDimitry Andric OS << "\n// FastEmit Immediate Predicate functions.\n"; 612fe6060f1SDimitry Andric for (auto ImmediatePredicate : ImmediatePredicates) { 613fe6060f1SDimitry Andric OS << "static bool " << ImmediatePredicate.getFnName() 614fe6060f1SDimitry Andric << "(int64_t Imm) {\n"; 615fe6060f1SDimitry Andric OS << ImmediatePredicate.getImmediatePredicateCode() << "\n}\n"; 6160b57cec5SDimitry Andric } 6170b57cec5SDimitry Andric 6180b57cec5SDimitry Andric OS << "\n\n"; 6190b57cec5SDimitry Andric } 6200b57cec5SDimitry Andric 6210b57cec5SDimitry Andric void FastISelMap::emitInstructionCode(raw_ostream &OS, 6220b57cec5SDimitry Andric const OperandsSignature &Operands, 6230b57cec5SDimitry Andric const PredMap &PM, 6240b57cec5SDimitry Andric const std::string &RetVTName) { 6250b57cec5SDimitry Andric // Emit code for each possible instruction. There may be 6260b57cec5SDimitry Andric // multiple if there are subtarget concerns. A reverse iterator 6270b57cec5SDimitry Andric // is used to produce the ones with highest complexity first. 6280b57cec5SDimitry Andric 6290b57cec5SDimitry Andric bool OneHadNoPredicate = false; 6300b57cec5SDimitry Andric for (PredMap::const_reverse_iterator PI = PM.rbegin(), PE = PM.rend(); 6310b57cec5SDimitry Andric PI != PE; ++PI) { 6320b57cec5SDimitry Andric const InstructionMemo &Memo = PI->second; 6330b57cec5SDimitry Andric std::string PredicateCheck = Memo.PredicateCheck; 6340b57cec5SDimitry Andric 6350b57cec5SDimitry Andric if (PredicateCheck.empty()) { 6360b57cec5SDimitry Andric assert(!OneHadNoPredicate && 6370b57cec5SDimitry Andric "Multiple instructions match and more than one had " 6380b57cec5SDimitry Andric "no predicate!"); 6390b57cec5SDimitry Andric OneHadNoPredicate = true; 6400b57cec5SDimitry Andric } else { 6410b57cec5SDimitry Andric if (OneHadNoPredicate) { 6420b57cec5SDimitry Andric PrintFatalError("Multiple instructions match and one with no " 6430b57cec5SDimitry Andric "predicate came before one with a predicate! " 6440b57cec5SDimitry Andric "name:" + Memo.Name + " predicate: " + PredicateCheck); 6450b57cec5SDimitry Andric } 6460b57cec5SDimitry Andric OS << " if (" + PredicateCheck + ") {\n"; 6470b57cec5SDimitry Andric OS << " "; 6480b57cec5SDimitry Andric } 6490b57cec5SDimitry Andric 6500b57cec5SDimitry Andric for (unsigned i = 0; i < Memo.PhysRegs.size(); ++i) { 6510b57cec5SDimitry Andric if (Memo.PhysRegs[i] != "") 652*bdd1243dSDimitry Andric OS << " BuildMI(*FuncInfo.MBB, FuncInfo.InsertPt, MIMD, " 6530b57cec5SDimitry Andric << "TII.get(TargetOpcode::COPY), " << Memo.PhysRegs[i] 6540b57cec5SDimitry Andric << ").addReg(Op" << i << ");\n"; 6550b57cec5SDimitry Andric } 6560b57cec5SDimitry Andric 6570b57cec5SDimitry Andric OS << " return fastEmitInst_"; 6580b57cec5SDimitry Andric if (Memo.SubRegNo.empty()) { 6590b57cec5SDimitry Andric Operands.PrintManglingSuffix(OS, Memo.PhysRegs, ImmediatePredicates, 6600b57cec5SDimitry Andric true); 6610b57cec5SDimitry Andric OS << "(" << InstNS << "::" << Memo.Name << ", "; 6620b57cec5SDimitry Andric OS << "&" << InstNS << "::" << Memo.RC->getName() << "RegClass"; 6630b57cec5SDimitry Andric if (!Operands.empty()) 6640b57cec5SDimitry Andric OS << ", "; 6650b57cec5SDimitry Andric Operands.PrintArguments(OS, Memo.PhysRegs); 6660b57cec5SDimitry Andric OS << ");\n"; 6670b57cec5SDimitry Andric } else { 6680b57cec5SDimitry Andric OS << "extractsubreg(" << RetVTName 669fe6060f1SDimitry Andric << ", Op0, " << Memo.SubRegNo << ");\n"; 6700b57cec5SDimitry Andric } 6710b57cec5SDimitry Andric 6720b57cec5SDimitry Andric if (!PredicateCheck.empty()) { 6730b57cec5SDimitry Andric OS << " }\n"; 6740b57cec5SDimitry Andric } 6750b57cec5SDimitry Andric } 6760b57cec5SDimitry Andric // Return 0 if all of the possibilities had predicates but none 6770b57cec5SDimitry Andric // were satisfied. 6780b57cec5SDimitry Andric if (!OneHadNoPredicate) 6790b57cec5SDimitry Andric OS << " return 0;\n"; 6800b57cec5SDimitry Andric OS << "}\n"; 6810b57cec5SDimitry Andric OS << "\n"; 6820b57cec5SDimitry Andric } 6830b57cec5SDimitry Andric 6840b57cec5SDimitry Andric 6850b57cec5SDimitry Andric void FastISelMap::printFunctionDefinitions(raw_ostream &OS) { 6860b57cec5SDimitry Andric // Now emit code for all the patterns that we collected. 687fe6060f1SDimitry Andric for (const auto &SimplePattern : SimplePatterns) { 688fe6060f1SDimitry Andric const OperandsSignature &Operands = SimplePattern.first; 689fe6060f1SDimitry Andric const OpcodeTypeRetPredMap &OTM = SimplePattern.second; 6900b57cec5SDimitry Andric 691fe6060f1SDimitry Andric for (const auto &I : OTM) { 692fe6060f1SDimitry Andric const std::string &Opcode = I.first; 693fe6060f1SDimitry Andric const TypeRetPredMap &TM = I.second; 6940b57cec5SDimitry Andric 6950b57cec5SDimitry Andric OS << "// FastEmit functions for " << Opcode << ".\n"; 6960b57cec5SDimitry Andric OS << "\n"; 6970b57cec5SDimitry Andric 6980b57cec5SDimitry Andric // Emit one function for each opcode,type pair. 699fe6060f1SDimitry Andric for (const auto &TI : TM) { 700fe6060f1SDimitry Andric MVT::SimpleValueType VT = TI.first; 701fe6060f1SDimitry Andric const RetPredMap &RM = TI.second; 7020b57cec5SDimitry Andric if (RM.size() != 1) { 703fe6060f1SDimitry Andric for (const auto &RI : RM) { 704fe6060f1SDimitry Andric MVT::SimpleValueType RetVT = RI.first; 705fe6060f1SDimitry Andric const PredMap &PM = RI.second; 7060b57cec5SDimitry Andric 7075ffd83dbSDimitry Andric OS << "unsigned fastEmit_" << getLegalCName(Opcode) << "_" 7085ffd83dbSDimitry Andric << getLegalCName(std::string(getName(VT))) << "_" 7095ffd83dbSDimitry Andric << getLegalCName(std::string(getName(RetVT))) << "_"; 7100b57cec5SDimitry Andric Operands.PrintManglingSuffix(OS, ImmediatePredicates); 7110b57cec5SDimitry Andric OS << "("; 7120b57cec5SDimitry Andric Operands.PrintParameters(OS); 7130b57cec5SDimitry Andric OS << ") {\n"; 7140b57cec5SDimitry Andric 7155ffd83dbSDimitry Andric emitInstructionCode(OS, Operands, PM, std::string(getName(RetVT))); 7160b57cec5SDimitry Andric } 7170b57cec5SDimitry Andric 7180b57cec5SDimitry Andric // Emit one function for the type that demultiplexes on return type. 7195ffd83dbSDimitry Andric OS << "unsigned fastEmit_" << getLegalCName(Opcode) << "_" 7205ffd83dbSDimitry Andric << getLegalCName(std::string(getName(VT))) << "_"; 7210b57cec5SDimitry Andric Operands.PrintManglingSuffix(OS, ImmediatePredicates); 7220b57cec5SDimitry Andric OS << "(MVT RetVT"; 7230b57cec5SDimitry Andric if (!Operands.empty()) 7240b57cec5SDimitry Andric OS << ", "; 7250b57cec5SDimitry Andric Operands.PrintParameters(OS); 7260b57cec5SDimitry Andric OS << ") {\nswitch (RetVT.SimpleTy) {\n"; 727fe6060f1SDimitry Andric for (const auto &RI : RM) { 728fe6060f1SDimitry Andric MVT::SimpleValueType RetVT = RI.first; 7290b57cec5SDimitry Andric OS << " case " << getName(RetVT) << ": return fastEmit_" 7305ffd83dbSDimitry Andric << getLegalCName(Opcode) << "_" 7315ffd83dbSDimitry Andric << getLegalCName(std::string(getName(VT))) << "_" 7325ffd83dbSDimitry Andric << getLegalCName(std::string(getName(RetVT))) << "_"; 7330b57cec5SDimitry Andric Operands.PrintManglingSuffix(OS, ImmediatePredicates); 7340b57cec5SDimitry Andric OS << "("; 7350b57cec5SDimitry Andric Operands.PrintArguments(OS); 7360b57cec5SDimitry Andric OS << ");\n"; 7370b57cec5SDimitry Andric } 7380b57cec5SDimitry Andric OS << " default: return 0;\n}\n}\n\n"; 7390b57cec5SDimitry Andric 7400b57cec5SDimitry Andric } else { 7410b57cec5SDimitry Andric // Non-variadic return type. 7425ffd83dbSDimitry Andric OS << "unsigned fastEmit_" << getLegalCName(Opcode) << "_" 7435ffd83dbSDimitry Andric << getLegalCName(std::string(getName(VT))) << "_"; 7440b57cec5SDimitry Andric Operands.PrintManglingSuffix(OS, ImmediatePredicates); 7450b57cec5SDimitry Andric OS << "(MVT RetVT"; 7460b57cec5SDimitry Andric if (!Operands.empty()) 7470b57cec5SDimitry Andric OS << ", "; 7480b57cec5SDimitry Andric Operands.PrintParameters(OS); 7490b57cec5SDimitry Andric OS << ") {\n"; 7500b57cec5SDimitry Andric 7510b57cec5SDimitry Andric OS << " if (RetVT.SimpleTy != " << getName(RM.begin()->first) 7520b57cec5SDimitry Andric << ")\n return 0;\n"; 7530b57cec5SDimitry Andric 7540b57cec5SDimitry Andric const PredMap &PM = RM.begin()->second; 7550b57cec5SDimitry Andric 7560b57cec5SDimitry Andric emitInstructionCode(OS, Operands, PM, "RetVT"); 7570b57cec5SDimitry Andric } 7580b57cec5SDimitry Andric } 7590b57cec5SDimitry Andric 7600b57cec5SDimitry Andric // Emit one function for the opcode that demultiplexes based on the type. 7610b57cec5SDimitry Andric OS << "unsigned fastEmit_" 7620b57cec5SDimitry Andric << getLegalCName(Opcode) << "_"; 7630b57cec5SDimitry Andric Operands.PrintManglingSuffix(OS, ImmediatePredicates); 7640b57cec5SDimitry Andric OS << "(MVT VT, MVT RetVT"; 7650b57cec5SDimitry Andric if (!Operands.empty()) 7660b57cec5SDimitry Andric OS << ", "; 7670b57cec5SDimitry Andric Operands.PrintParameters(OS); 7680b57cec5SDimitry Andric OS << ") {\n"; 7690b57cec5SDimitry Andric OS << " switch (VT.SimpleTy) {\n"; 770fe6060f1SDimitry Andric for (const auto &TI : TM) { 771fe6060f1SDimitry Andric MVT::SimpleValueType VT = TI.first; 7725ffd83dbSDimitry Andric std::string TypeName = std::string(getName(VT)); 7730b57cec5SDimitry Andric OS << " case " << TypeName << ": return fastEmit_" 7740b57cec5SDimitry Andric << getLegalCName(Opcode) << "_" << getLegalCName(TypeName) << "_"; 7750b57cec5SDimitry Andric Operands.PrintManglingSuffix(OS, ImmediatePredicates); 7760b57cec5SDimitry Andric OS << "(RetVT"; 7770b57cec5SDimitry Andric if (!Operands.empty()) 7780b57cec5SDimitry Andric OS << ", "; 7790b57cec5SDimitry Andric Operands.PrintArguments(OS); 7800b57cec5SDimitry Andric OS << ");\n"; 7810b57cec5SDimitry Andric } 7820b57cec5SDimitry Andric OS << " default: return 0;\n"; 7830b57cec5SDimitry Andric OS << " }\n"; 7840b57cec5SDimitry Andric OS << "}\n"; 7850b57cec5SDimitry Andric OS << "\n"; 7860b57cec5SDimitry Andric } 7870b57cec5SDimitry Andric 7880b57cec5SDimitry Andric OS << "// Top-level FastEmit function.\n"; 7890b57cec5SDimitry Andric OS << "\n"; 7900b57cec5SDimitry Andric 7910b57cec5SDimitry Andric // Emit one function for the operand signature that demultiplexes based 7920b57cec5SDimitry Andric // on opcode and type. 7930b57cec5SDimitry Andric OS << "unsigned fastEmit_"; 7940b57cec5SDimitry Andric Operands.PrintManglingSuffix(OS, ImmediatePredicates); 7950b57cec5SDimitry Andric OS << "(MVT VT, MVT RetVT, unsigned Opcode"; 7960b57cec5SDimitry Andric if (!Operands.empty()) 7970b57cec5SDimitry Andric OS << ", "; 7980b57cec5SDimitry Andric Operands.PrintParameters(OS); 7990b57cec5SDimitry Andric OS << ") "; 8000b57cec5SDimitry Andric if (!Operands.hasAnyImmediateCodes()) 8010b57cec5SDimitry Andric OS << "override "; 8020b57cec5SDimitry Andric OS << "{\n"; 8030b57cec5SDimitry Andric 8040b57cec5SDimitry Andric // If there are any forms of this signature available that operate on 8050b57cec5SDimitry Andric // constrained forms of the immediate (e.g., 32-bit sext immediate in a 8060b57cec5SDimitry Andric // 64-bit operand), check them first. 8070b57cec5SDimitry Andric 8080b57cec5SDimitry Andric std::map<OperandsSignature, std::vector<OperandsSignature> >::iterator MI 8090b57cec5SDimitry Andric = SignaturesWithConstantForms.find(Operands); 8100b57cec5SDimitry Andric if (MI != SignaturesWithConstantForms.end()) { 8110b57cec5SDimitry Andric // Unique any duplicates out of the list. 8120b57cec5SDimitry Andric llvm::sort(MI->second); 8130b57cec5SDimitry Andric MI->second.erase(std::unique(MI->second.begin(), MI->second.end()), 8140b57cec5SDimitry Andric MI->second.end()); 8150b57cec5SDimitry Andric 8160b57cec5SDimitry Andric // Check each in order it was seen. It would be nice to have a good 8170b57cec5SDimitry Andric // relative ordering between them, but we're not going for optimality 8180b57cec5SDimitry Andric // here. 8190b57cec5SDimitry Andric for (unsigned i = 0, e = MI->second.size(); i != e; ++i) { 8200b57cec5SDimitry Andric OS << " if ("; 8210b57cec5SDimitry Andric MI->second[i].emitImmediatePredicate(OS, ImmediatePredicates); 8220b57cec5SDimitry Andric OS << ")\n if (unsigned Reg = fastEmit_"; 8230b57cec5SDimitry Andric MI->second[i].PrintManglingSuffix(OS, ImmediatePredicates); 8240b57cec5SDimitry Andric OS << "(VT, RetVT, Opcode"; 8250b57cec5SDimitry Andric if (!MI->second[i].empty()) 8260b57cec5SDimitry Andric OS << ", "; 8270b57cec5SDimitry Andric MI->second[i].PrintArguments(OS); 8280b57cec5SDimitry Andric OS << "))\n return Reg;\n\n"; 8290b57cec5SDimitry Andric } 8300b57cec5SDimitry Andric 8310b57cec5SDimitry Andric // Done with this, remove it. 8320b57cec5SDimitry Andric SignaturesWithConstantForms.erase(MI); 8330b57cec5SDimitry Andric } 8340b57cec5SDimitry Andric 8350b57cec5SDimitry Andric OS << " switch (Opcode) {\n"; 836fe6060f1SDimitry Andric for (const auto &I : OTM) { 837fe6060f1SDimitry Andric const std::string &Opcode = I.first; 8380b57cec5SDimitry Andric 8390b57cec5SDimitry Andric OS << " case " << Opcode << ": return fastEmit_" 8400b57cec5SDimitry Andric << getLegalCName(Opcode) << "_"; 8410b57cec5SDimitry Andric Operands.PrintManglingSuffix(OS, ImmediatePredicates); 8420b57cec5SDimitry Andric OS << "(VT, RetVT"; 8430b57cec5SDimitry Andric if (!Operands.empty()) 8440b57cec5SDimitry Andric OS << ", "; 8450b57cec5SDimitry Andric Operands.PrintArguments(OS); 8460b57cec5SDimitry Andric OS << ");\n"; 8470b57cec5SDimitry Andric } 8480b57cec5SDimitry Andric OS << " default: return 0;\n"; 8490b57cec5SDimitry Andric OS << " }\n"; 8500b57cec5SDimitry Andric OS << "}\n"; 8510b57cec5SDimitry Andric OS << "\n"; 8520b57cec5SDimitry Andric } 8530b57cec5SDimitry Andric 8540b57cec5SDimitry Andric // TODO: SignaturesWithConstantForms should be empty here. 8550b57cec5SDimitry Andric } 8560b57cec5SDimitry Andric 8570b57cec5SDimitry Andric namespace llvm { 8580b57cec5SDimitry Andric 8590b57cec5SDimitry Andric void EmitFastISel(RecordKeeper &RK, raw_ostream &OS) { 8600b57cec5SDimitry Andric CodeGenDAGPatterns CGP(RK); 8610b57cec5SDimitry Andric const CodeGenTarget &Target = CGP.getTargetInfo(); 8620b57cec5SDimitry Andric emitSourceFileHeader("\"Fast\" Instruction Selector for the " + 8630b57cec5SDimitry Andric Target.getName().str() + " target", OS); 8640b57cec5SDimitry Andric 8650b57cec5SDimitry Andric // Determine the target's namespace name. 8660b57cec5SDimitry Andric StringRef InstNS = Target.getInstNamespace(); 8670b57cec5SDimitry Andric assert(!InstNS.empty() && "Can't determine target-specific namespace!"); 8680b57cec5SDimitry Andric 8690b57cec5SDimitry Andric FastISelMap F(InstNS); 8700b57cec5SDimitry Andric F.collectPatterns(CGP); 8710b57cec5SDimitry Andric F.printImmediatePredicates(OS); 8720b57cec5SDimitry Andric F.printFunctionDefinitions(OS); 8730b57cec5SDimitry Andric } 8740b57cec5SDimitry Andric 8750b57cec5SDimitry Andric } // End llvm namespace 876