X-Git-Url: http://demsky.eecs.uci.edu/git/?a=blobdiff_plain;f=utils%2FTableGen%2FAsmMatcherEmitter.cpp;h=de24cde4ba72f35930d2d98e6aa6df338ff5a097;hb=d573aba8e13c2afc5ad7c3c3c442a3a84f8bd94d;hp=6faf819529d0c842b5a56af25d9cce238d290939;hpb=fa05def52c6bb8266d856a9af2de6fa066d93d44;p=oota-llvm.git diff --git a/utils/TableGen/AsmMatcherEmitter.cpp b/utils/TableGen/AsmMatcherEmitter.cpp index 6faf819529d..de24cde4ba7 100644 --- a/utils/TableGen/AsmMatcherEmitter.cpp +++ b/utils/TableGen/AsmMatcherEmitter.cpp @@ -97,7 +97,6 @@ //===----------------------------------------------------------------------===// #include "CodeGenTarget.h" -#include "StringToOffsetTable.h" #include "llvm/ADT/OwningPtr.h" #include "llvm/ADT/PointerUnion.h" #include "llvm/ADT/STLExtras.h" @@ -110,10 +109,13 @@ #include "llvm/TableGen/Error.h" #include "llvm/TableGen/Record.h" #include "llvm/TableGen/StringMatcher.h" +#include "llvm/TableGen/StringToOffsetTable.h" #include "llvm/TableGen/TableGenBackend.h" #include +#include #include #include +#include using namespace llvm; static cl::opt @@ -124,6 +126,13 @@ namespace { class AsmMatcherInfo; struct SubtargetFeatureInfo; +// Register sets are used as keys in some second-order sets TableGen creates +// when generating its data structures. This means that the order of two +// RegisterSets can be seen in the outputted AsmMatcher tables occasionally, and +// can even affect compiler output (at least seen in diagnostics produced when +// all matches fail). So we use a type that sorts them consistently. +typedef std::set RegisterSet; + class AsmMatcherEmitter { RecordKeeper &Records; public: @@ -184,7 +193,7 @@ struct ClassInfo { std::string ParserMethod; /// For register classes, the records for all the registers in this class. - std::set Registers; + RegisterSet Registers; /// For custom match classes, he diagnostic kind for when the predicate fails. std::string DiagnosticType; @@ -212,11 +221,11 @@ public: if (!isRegisterClass() || !RHS.isRegisterClass()) return false; - std::set Tmp; - std::insert_iterator< std::set > II(Tmp, Tmp.begin()); + RegisterSet Tmp; + std::insert_iterator II(Tmp, Tmp.begin()); std::set_intersection(Registers.begin(), Registers.end(), RHS.Registers.begin(), RHS.Registers.end(), - II); + II, LessRecordByID()); return !Tmp.empty(); } @@ -429,6 +438,9 @@ struct MatchableInfo { /// function. std::string ConversionFnKind; + /// If this instruction is deprecated in some form. + bool HasDeprecation; + MatchableInfo(const CodeGenInstruction &CGI) : AsmVariantID(0), TheDef(CGI.TheDef), DefRec(&CGI), AsmString(CGI.AsmString) { @@ -612,7 +624,7 @@ public: RegisterClassesTy RegisterClasses; /// Map of Predicate records to their subtarget information. - std::map SubtargetFeatures; + std::map SubtargetFeatures; /// Map of AsmOperandClass records to their class information. std::map AsmOperandClasses; @@ -662,7 +674,7 @@ public: /// given operand. SubtargetFeatureInfo *getSubtargetFeature(Record *Def) const { assert(Def->isSubClassOf("Predicate") && "Invalid predicate type!"); - std::map::const_iterator I = + std::map::const_iterator I = SubtargetFeatures.find(Def); return I == SubtargetFeatures.end() ? 0 : I->second; } @@ -778,6 +790,13 @@ void MatchableInfo::initialize(const AsmMatcherInfo &Info, if (Record *Reg = AsmOperands[i].SingletonReg) SingletonRegisters.insert(Reg); } + + const RecordVal *DepMask = TheDef->getValue("DeprecatedFeatureMask"); + if (!DepMask) + DepMask = TheDef->getValue("ComplexDeprecationPredicate"); + + HasDeprecation = + DepMask ? !DepMask->getValue()->getAsUnquotedString().empty() : false; } /// tokenizeAsmString - Tokenize a simplified assembly string. @@ -836,9 +855,11 @@ void MatchableInfo::tokenizeAsmString(const AsmMatcherInfo &Info) { } case '.': - if (InTok) - AsmOperands.push_back(AsmOperand(String.slice(Prev, i))); - Prev = i; + if (!Info.AsmParser->getValueAsBit("MnemonicContainsDot")) { + if (InTok) + AsmOperands.push_back(AsmOperand(String.slice(Prev, i))); + Prev = i; + } InTok = true; break; @@ -1044,6 +1065,18 @@ AsmMatcherInfo::getOperandClass(Record *Rec, int SubOpIdx) { PrintFatalError(Rec->getLoc(), "operand has no match class!"); } +struct LessRegisterSet { + bool operator() (const RegisterSet &LHS, const RegisterSet & RHS) const { + // std::set defines its own compariso "operator<", but it + // performs a lexicographical comparison by T's innate comparison + // for some reason. We don't want non-deterministic pointer + // comparisons so use this instead. + return std::lexicographical_compare(LHS.begin(), LHS.end(), + RHS.begin(), RHS.end(), + LessRecordByID()); + } +}; + void AsmMatcherInfo:: buildRegisterClasses(SmallPtrSet &SingletonRegisters) { const std::vector &Registers = @@ -1051,33 +1084,35 @@ buildRegisterClasses(SmallPtrSet &SingletonRegisters) { ArrayRef RegClassList = Target.getRegBank().getRegClasses(); + typedef std::set RegisterSetSet; + // The register sets used for matching. - std::set< std::set > RegisterSets; + RegisterSetSet RegisterSets; // Gather the defined sets. for (ArrayRef::const_iterator it = - RegClassList.begin(), ie = RegClassList.end(); it != ie; ++it) - RegisterSets.insert(std::set( + RegClassList.begin(), ie = RegClassList.end(); it != ie; ++it) + RegisterSets.insert(RegisterSet( (*it)->getOrder().begin(), (*it)->getOrder().end())); // Add any required singleton sets. for (SmallPtrSet::iterator it = SingletonRegisters.begin(), ie = SingletonRegisters.end(); it != ie; ++it) { Record *Rec = *it; - RegisterSets.insert(std::set(&Rec, &Rec + 1)); + RegisterSets.insert(RegisterSet(&Rec, &Rec + 1)); } // Introduce derived sets where necessary (when a register does not determine // a unique register set class), and build the mapping of registers to the set // they should classify to. - std::map > RegisterMap; + std::map RegisterMap; for (std::vector::const_iterator it = Registers.begin(), ie = Registers.end(); it != ie; ++it) { const CodeGenRegister &CGR = **it; // Compute the intersection of all sets containing this register. - std::set ContainingSet; + RegisterSet ContainingSet; - for (std::set< std::set >::iterator it = RegisterSets.begin(), + for (RegisterSetSet::iterator it = RegisterSets.begin(), ie = RegisterSets.end(); it != ie; ++it) { if (!it->count(CGR.TheDef)) continue; @@ -1087,11 +1122,12 @@ buildRegisterClasses(SmallPtrSet &SingletonRegisters) { continue; } - std::set Tmp; + RegisterSet Tmp; std::swap(Tmp, ContainingSet); - std::insert_iterator< std::set > II(ContainingSet, - ContainingSet.begin()); - std::set_intersection(Tmp.begin(), Tmp.end(), it->begin(), it->end(), II); + std::insert_iterator II(ContainingSet, + ContainingSet.begin()); + std::set_intersection(Tmp.begin(), Tmp.end(), it->begin(), it->end(), II, + LessRecordByID()); } if (!ContainingSet.empty()) { @@ -1101,9 +1137,9 @@ buildRegisterClasses(SmallPtrSet &SingletonRegisters) { } // Construct the register classes. - std::map, ClassInfo*> RegisterSetClasses; + std::map RegisterSetClasses; unsigned Index = 0; - for (std::set< std::set >::iterator it = RegisterSets.begin(), + for (RegisterSetSet::iterator it = RegisterSets.begin(), ie = RegisterSets.end(); it != ie; ++it, ++Index) { ClassInfo *CI = new ClassInfo(); CI->Kind = ClassInfo::RegisterClass0 + Index; @@ -1121,13 +1157,14 @@ buildRegisterClasses(SmallPtrSet &SingletonRegisters) { // Find the superclasses; we could compute only the subgroup lattice edges, // but there isn't really a point. - for (std::set< std::set >::iterator it = RegisterSets.begin(), + for (RegisterSetSet::iterator it = RegisterSets.begin(), ie = RegisterSets.end(); it != ie; ++it) { ClassInfo *CI = RegisterSetClasses[*it]; - for (std::set< std::set >::iterator it2 = RegisterSets.begin(), + for (RegisterSetSet::iterator it2 = RegisterSets.begin(), ie2 = RegisterSets.end(); it2 != ie2; ++it2) if (*it != *it2 && - std::includes(it2->begin(), it2->end(), it->begin(), it->end())) + std::includes(it2->begin(), it2->end(), it->begin(), it->end(), + LessRecordByID())) CI->SuperClasses.push_back(RegisterSetClasses[*it2]); } @@ -1139,8 +1176,8 @@ buildRegisterClasses(SmallPtrSet &SingletonRegisters) { Record *Def = RC.getDef(); if (!Def) continue; - ClassInfo *CI = RegisterSetClasses[std::set(RC.getOrder().begin(), - RC.getOrder().end())]; + ClassInfo *CI = RegisterSetClasses[RegisterSet(RC.getOrder().begin(), + RC.getOrder().end())]; if (CI->ValueName.empty()) { CI->ClassName = RC.getName(); CI->Name = "MCK_" + RC.getName(); @@ -1152,7 +1189,7 @@ buildRegisterClasses(SmallPtrSet &SingletonRegisters) { } // Populate the map for individual registers. - for (std::map >::iterator it = RegisterMap.begin(), + for (std::map::iterator it = RegisterMap.begin(), ie = RegisterMap.end(); it != ie; ++it) RegisterClasses[it->first] = RegisterSetClasses[it->second]; @@ -1322,27 +1359,6 @@ void AsmMatcherInfo::buildInfo() { if (CGI.TheDef->getValueAsBit("isCodeGenOnly")) continue; - // Validate the operand list to ensure we can handle this instruction. - for (unsigned i = 0, e = CGI.Operands.size(); i != e; ++i) { - const CGIOperandList::OperandInfo &OI = CGI.Operands[i]; - - // Validate tied operands. - if (OI.getTiedRegister() != -1) { - // If we have a tied operand that consists of multiple MCOperands, - // reject it. We reject aliases and ignore instructions for now. - if (OI.MINumOperands != 1) { - // FIXME: Should reject these. The ARM backend hits this with $lane - // in a bunch of instructions. The right answer is unclear. - DEBUG({ - errs() << "warning: '" << CGI.TheDef->getName() << "': " - << "ignoring instruction with multi-operand tied operand '" - << OI.Name << "'\n"; - }); - continue; - } - } - } - OwningPtr II(new MatchableInfo(CGI)); II->initialize(*this, SingletonRegisters, AsmVariantNo, RegisterPrefix); @@ -1529,7 +1545,9 @@ buildInstructionOperandReference(MatchableInfo *II, // we want to canonicalize to: // "inc $dst" // so that we know how to provide the $dst operand when filling in the result. - int OITied = Operands[Idx].getTiedRegister(); + int OITied = -1; + if (Operands[Idx].MINumOperands == 1) + OITied = Operands[Idx].getTiedRegister(); if (OITied != -1) { // The tied operand index is an MIOperand index, find the operand that // contains it. @@ -1578,7 +1596,9 @@ void MatchableInfo::buildInstructionResultOperands() { const CGIOperandList::OperandInfo &OpInfo = ResultInst->Operands[i]; // If this is a tied operand, just copy from the previously handled operand. - int TiedOp = OpInfo.getTiedRegister(); + int TiedOp = -1; + if (OpInfo.MINumOperands == 1) + TiedOp = OpInfo.getTiedRegister(); if (TiedOp != -1) { ResOperands.push_back(ResOperand::getTiedOp(TiedOp)); continue; @@ -1586,10 +1606,15 @@ void MatchableInfo::buildInstructionResultOperands() { // Find out what operand from the asmparser this MCInst operand comes from. int SrcOperand = findAsmOperandNamed(OpInfo.Name); - if (OpInfo.Name.empty() || SrcOperand == -1) - PrintFatalError(TheDef->getLoc(), "Instruction '" + - TheDef->getName() + "' has operand '" + OpInfo.Name + - "' that doesn't appear in asm string!"); + if (OpInfo.Name.empty() || SrcOperand == -1) { + // This may happen for operands that are tied to a suboperand of a + // complex operand. Simply use a dummy value here; nobody should + // use this operand slot. + // FIXME: The long term goal is for the MCOperand list to not contain + // tied operands at all. + ResOperands.push_back(ResOperand::getImmOp(0)); + continue; + } // Check if the one AsmOperand populates the entire operand. unsigned NumOperands = OpInfo.MINumOperands; @@ -1620,7 +1645,9 @@ void MatchableInfo::buildAliasResultOperands() { const CGIOperandList::OperandInfo *OpInfo = &ResultInst->Operands[i]; // If this is a tied operand, just copy from the previously handled operand. - int TiedOp = OpInfo->getTiedRegister(); + int TiedOp = -1; + if (OpInfo->MINumOperands == 1) + TiedOp = OpInfo->getTiedRegister(); if (TiedOp != -1) { ResOperands.push_back(ResOperand::getTiedOp(TiedOp)); continue; @@ -1843,13 +1870,12 @@ static void emitConvertFuncs(CodeGenTarget &Target, StringRef ClassName, case MatchableInfo::ResOperand::TiedOperand: { // If this operand is tied to a previous one, just copy the MCInst // operand from the earlier one.We can only tie single MCOperand values. - //assert(OpInfo.MINumOperands == 1 && "Not a singular MCOperand"); + assert(OpInfo.MINumOperands == 1 && "Not a singular MCOperand"); unsigned TiedOp = OpInfo.TiedOperandNum; assert(i > TiedOp && "Tied operand precedes its target!"); Signature += "__Tie" + utostr(TiedOp); ConversionRow.push_back(CVT_Tied); ConversionRow.push_back(TiedOp); - // FIXME: Handle the operand number lookup for tied operands. break; } case MatchableInfo::ResOperand::ImmOperand: { @@ -2077,9 +2103,12 @@ static void emitIsSubclass(CodeGenTarget &Target, OS << " if (A == B)\n"; OS << " return true;\n\n"; - OS << " switch (A) {\n"; - OS << " default:\n"; - OS << " return false;\n"; + std::string OStr; + raw_string_ostream SS(OStr); + unsigned Count = 0; + SS << " switch (A) {\n"; + SS << " default:\n"; + SS << " return false;\n"; for (std::vector::iterator it = Infos.begin(), ie = Infos.end(); it != ie; ++it) { ClassInfo &A = **it; @@ -2095,21 +2124,35 @@ static void emitIsSubclass(CodeGenTarget &Target, if (SuperClasses.empty()) continue; + ++Count; - OS << "\n case " << A.Name << ":\n"; + SS << "\n case " << A.Name << ":\n"; if (SuperClasses.size() == 1) { - OS << " return B == " << SuperClasses.back() << ";\n"; + SS << " return B == " << SuperClasses.back().str() << ";\n"; continue; } - OS << " switch (B) {\n"; - OS << " default: return false;\n"; - for (unsigned i = 0, e = SuperClasses.size(); i != e; ++i) - OS << " case " << SuperClasses[i] << ": return true;\n"; - OS << " }\n"; + if (!SuperClasses.empty()) { + SS << " switch (B) {\n"; + SS << " default: return false;\n"; + for (unsigned i = 0, e = SuperClasses.size(); i != e; ++i) + SS << " case " << SuperClasses[i].str() << ": return true;\n"; + SS << " }\n"; + } else { + // No case statement to emit + SS << " return false;\n"; + } } - OS << " }\n"; + SS << " }\n"; + + // If there were case statements emitted into the string stream, write them + // to the output stream, otherwise write the default. + if (Count) + OS << SS.str(); + else + OS << " return false;\n"; + OS << "}\n\n"; } @@ -2170,7 +2213,7 @@ static void emitSubtargetFeatureFlagEnumeration(AsmMatcherInfo &Info, OS << "// Flags for subtarget features that participate in " << "instruction matching.\n"; OS << "enum SubtargetFeatureFlag {\n"; - for (std::map::const_iterator + for (std::map::const_iterator it = Info.SubtargetFeatures.begin(), ie = Info.SubtargetFeatures.end(); it != ie; ++it) { SubtargetFeatureInfo &SFI = *it->second; @@ -2205,18 +2248,24 @@ static void emitOperandDiagnosticTypes(AsmMatcherInfo &Info, raw_ostream &OS) { static void emitGetSubtargetFeatureName(AsmMatcherInfo &Info, raw_ostream &OS) { OS << "// User-level names for subtarget features that participate in\n" << "// instruction matching.\n" - << "static const char *getSubtargetFeatureName(unsigned Val) {\n" - << " switch(Val) {\n"; - for (std::map::const_iterator - it = Info.SubtargetFeatures.begin(), - ie = Info.SubtargetFeatures.end(); it != ie; ++it) { - SubtargetFeatureInfo &SFI = *it->second; - // FIXME: Totally just a placeholder name to get the algorithm working. - OS << " case " << SFI.getEnumName() << ": return \"" - << SFI.TheDef->getValueAsString("PredicateName") << "\";\n"; + << "static const char *getSubtargetFeatureName(unsigned Val) {\n"; + if (!Info.SubtargetFeatures.empty()) { + OS << " switch(Val) {\n"; + typedef std::map RecFeatMap; + for (RecFeatMap::const_iterator it = Info.SubtargetFeatures.begin(), + ie = Info.SubtargetFeatures.end(); it != ie; ++it) { + SubtargetFeatureInfo &SFI = *it->second; + // FIXME: Totally just a placeholder name to get the algorithm working. + OS << " case " << SFI.getEnumName() << ": return \"" + << SFI.TheDef->getValueAsString("PredicateName") << "\";\n"; + } + OS << " default: return \"(unknown)\";\n"; + OS << " }\n"; + } else { + // Nothing to emit, so skip the switch + OS << " return \"(unknown)\";\n"; } - OS << " default: return \"(unknown)\";\n"; - OS << " }\n}\n\n"; + OS << "}\n\n"; } /// emitComputeAvailableFeatures - Emit the function to compute the list of @@ -2229,7 +2278,7 @@ static void emitComputeAvailableFeatures(AsmMatcherInfo &Info, OS << "unsigned " << Info.Target.getName() << ClassName << "::\n" << "ComputeAvailableFeatures(uint64_t FB) const {\n"; OS << " unsigned Features = 0;\n"; - for (std::map::const_iterator + for (std::map::const_iterator it = Info.SubtargetFeatures.begin(), ie = Info.SubtargetFeatures.end(); it != ie; ++it) { SubtargetFeatureInfo &SFI = *it->second; @@ -2296,28 +2345,24 @@ static std::string GetAliasRequiredFeatures(Record *R, return Result; } -/// emitMnemonicAliases - If the target has any MnemonicAlias<> definitions, -/// emit a function for them and return true, otherwise return false. -static bool emitMnemonicAliases(raw_ostream &OS, const AsmMatcherInfo &Info) { - // Ignore aliases when match-prefix is set. - if (!MatchPrefix.empty()) - return false; - - std::vector Aliases = - Info.getRecords().getAllDerivedDefinitions("MnemonicAlias"); - if (Aliases.empty()) return false; - - OS << "static void applyMnemonicAliases(StringRef &Mnemonic, " - "unsigned Features) {\n"; - +static void emitMnemonicAliasVariant(raw_ostream &OS,const AsmMatcherInfo &Info, + std::vector &Aliases, + unsigned Indent = 0, + StringRef AsmParserVariantName = StringRef()){ // Keep track of all the aliases from a mnemonic. Use an std::map so that the // iteration order of the map is stable. std::map > AliasesFromMnemonic; for (unsigned i = 0, e = Aliases.size(); i != e; ++i) { Record *R = Aliases[i]; + // FIXME: Allow AssemblerVariantName to be a comma separated list. + std::string AsmVariantName = R->getValueAsString("AsmVariantName"); + if (AsmVariantName != AsmParserVariantName) + continue; AliasesFromMnemonic[R->getValueAsString("FromMnemonic")].push_back(R); } + if (AliasesFromMnemonic.empty()) + return; // Process each alias a "from" mnemonic at a time, building the code executed // by the string remapper. @@ -2370,8 +2415,39 @@ static bool emitMnemonicAliases(raw_ostream &OS, const AsmMatcherInfo &Info) { Cases.push_back(std::make_pair(I->first, MatchCode)); } + StringMatcher("Mnemonic", Cases, OS).Emit(Indent); +} + +/// emitMnemonicAliases - If the target has any MnemonicAlias<> definitions, +/// emit a function for them and return true, otherwise return false. +static bool emitMnemonicAliases(raw_ostream &OS, const AsmMatcherInfo &Info, + CodeGenTarget &Target) { + // Ignore aliases when match-prefix is set. + if (!MatchPrefix.empty()) + return false; + + std::vector Aliases = + Info.getRecords().getAllDerivedDefinitions("MnemonicAlias"); + if (Aliases.empty()) return false; + + OS << "static void applyMnemonicAliases(StringRef &Mnemonic, " + "unsigned Features, unsigned VariantID) {\n"; + OS << " switch (VariantID) {\n"; + unsigned VariantCount = Target.getAsmParserVariantCount(); + for (unsigned VC = 0; VC != VariantCount; ++VC) { + Record *AsmVariant = Target.getAsmParserVariant(VC); + int AsmParserVariantNo = AsmVariant->getValueAsInt("Variant"); + std::string AsmParserVariantName = AsmVariant->getValueAsString("Name"); + OS << " case " << AsmParserVariantNo << ":\n"; + emitMnemonicAliasVariant(OS, Info, Aliases, /*Indent=*/2, + AsmParserVariantName); + OS << " break;\n"; + } + OS << " }\n"; + + // Emit aliases that apply to all variants. + emitMnemonicAliasVariant(OS, Info, Aliases); - StringMatcher("Mnemonic", Cases, OS).Emit(); OS << "}\n\n"; return true; @@ -2616,7 +2692,7 @@ void AsmMatcherEmitter::run(raw_ostream &OS) { << "&Operands);\n"; OS << " void convertToMapAndConstraints(unsigned Kind,\n "; OS << " const SmallVectorImpl &Operands);\n"; - OS << " bool mnemonicIsValid(StringRef Mnemonic);\n"; + OS << " bool mnemonicIsValid(StringRef Mnemonic, unsigned VariantID);\n"; OS << " unsigned MatchInstructionImpl(\n"; OS.indent(27); OS << "const SmallVectorImpl &Operands,\n" @@ -2674,7 +2750,7 @@ void AsmMatcherEmitter::run(raw_ostream &OS) { OS << "#undef GET_MATCHER_IMPLEMENTATION\n\n"; // Generate the function that remaps for mnemonic aliases. - bool HasMnemonicAliases = emitMnemonicAliases(OS, Info); + bool HasMnemonicAliases = emitMnemonicAliases(OS, Info, Target); // Generate the convertToMCInst function to convert operands into an MCInst. // Also, generate the convertToMapAndConstraints function for MS-style inline @@ -2701,11 +2777,13 @@ void AsmMatcherEmitter::run(raw_ostream &OS) { size_t MaxNumOperands = 0; unsigned MaxMnemonicIndex = 0; + bool HasDeprecation = false; for (std::vector::const_iterator it = Info.Matchables.begin(), ie = Info.Matchables.end(); it != ie; ++it) { MatchableInfo &II = **it; MaxNumOperands = std::max(MaxNumOperands, II.AsmOperands.size()); + HasDeprecation |= II.HasDeprecation; // Store a pascal-style length byte in the mnemonic. std::string LenMnemonic = char(II.Mnemonic.size()) + II.Mnemonic.str(); @@ -2738,7 +2816,6 @@ void AsmMatcherEmitter::run(raw_ostream &OS) { << " RequiredFeatures;\n"; OS << " " << getMinimalTypeForRange(Info.Classes.size()) << " Classes[" << MaxNumOperands << "];\n"; - OS << " uint8_t AsmVariantID;\n\n"; OS << " StringRef getMnemonic() const {\n"; OS << " return StringRef(MnemonicTable + Mnemonic + 1,\n"; OS << " MnemonicTable[Mnemonic]);\n"; @@ -2760,51 +2837,67 @@ void AsmMatcherEmitter::run(raw_ostream &OS) { OS << "} // end anonymous namespace.\n\n"; - OS << "static const MatchEntry MatchTable[" - << Info.Matchables.size() << "] = {\n"; + unsigned VariantCount = Target.getAsmParserVariantCount(); + for (unsigned VC = 0; VC != VariantCount; ++VC) { + Record *AsmVariant = Target.getAsmParserVariant(VC); + int AsmVariantNo = AsmVariant->getValueAsInt("Variant"); - for (std::vector::const_iterator it = - Info.Matchables.begin(), ie = Info.Matchables.end(); - it != ie; ++it) { - MatchableInfo &II = **it; + OS << "static const MatchEntry MatchTable" << VC << "[] = {\n"; - // Store a pascal-style length byte in the mnemonic. - std::string LenMnemonic = char(II.Mnemonic.size()) + II.Mnemonic.str(); - OS << " { " << StringTable.GetOrAddStringOffset(LenMnemonic, false) - << " /* " << II.Mnemonic << " */, " - << Target.getName() << "::" - << II.getResultInst()->TheDef->getName() << ", " - << II.ConversionFnKind << ", "; + for (std::vector::const_iterator it = + Info.Matchables.begin(), ie = Info.Matchables.end(); + it != ie; ++it) { + MatchableInfo &II = **it; + if (II.AsmVariantID != AsmVariantNo) + continue; - // Write the required features mask. - if (!II.RequiredFeatures.empty()) { - for (unsigned i = 0, e = II.RequiredFeatures.size(); i != e; ++i) { - if (i) OS << "|"; - OS << II.RequiredFeatures[i]->getEnumName(); - } - } else - OS << "0"; + // Store a pascal-style length byte in the mnemonic. + std::string LenMnemonic = char(II.Mnemonic.size()) + II.Mnemonic.str(); + OS << " { " << StringTable.GetOrAddStringOffset(LenMnemonic, false) + << " /* " << II.Mnemonic << " */, " + << Target.getName() << "::" + << II.getResultInst()->TheDef->getName() << ", " + << II.ConversionFnKind << ", "; + + // Write the required features mask. + if (!II.RequiredFeatures.empty()) { + for (unsigned i = 0, e = II.RequiredFeatures.size(); i != e; ++i) { + if (i) OS << "|"; + OS << II.RequiredFeatures[i]->getEnumName(); + } + } else + OS << "0"; - OS << ", { "; - for (unsigned i = 0, e = II.AsmOperands.size(); i != e; ++i) { - MatchableInfo::AsmOperand &Op = II.AsmOperands[i]; + OS << ", { "; + for (unsigned i = 0, e = II.AsmOperands.size(); i != e; ++i) { + MatchableInfo::AsmOperand &Op = II.AsmOperands[i]; - if (i) OS << ", "; - OS << Op.Class->Name; + if (i) OS << ", "; + OS << Op.Class->Name; + } + OS << " }, },\n"; } - OS << " }, " << II.AsmVariantID; - OS << "},\n"; - } - OS << "};\n\n"; + OS << "};\n\n"; + } // A method to determine if a mnemonic is in the list. OS << "bool " << Target.getName() << ClassName << "::\n" - << "mnemonicIsValid(StringRef Mnemonic) {\n"; + << "mnemonicIsValid(StringRef Mnemonic, unsigned VariantID) {\n"; + OS << " // Find the appropriate table for this asm variant.\n"; + OS << " const MatchEntry *Start, *End;\n"; + OS << " switch (VariantID) {\n"; + OS << " default: // unreachable\n"; + for (unsigned VC = 0; VC != VariantCount; ++VC) { + Record *AsmVariant = Target.getAsmParserVariant(VC); + int AsmVariantNo = AsmVariant->getValueAsInt("Variant"); + OS << " case " << AsmVariantNo << ": Start = MatchTable" << VC + << "; End = array_endof(MatchTable" << VC << "); break;\n"; + } + OS << " }\n"; OS << " // Search the table.\n"; OS << " std::pair MnemonicRange =\n"; - OS << " std::equal_range(MatchTable, MatchTable+" - << Info.Matchables.size() << ", Mnemonic, LessOpcode());\n"; + OS << " std::equal_range(Start, End, Mnemonic, LessOpcode());\n"; OS << " return MnemonicRange.first != MnemonicRange.second;\n"; OS << "}\n\n"; @@ -2832,9 +2925,7 @@ void AsmMatcherEmitter::run(raw_ostream &OS) { if (HasMnemonicAliases) { OS << " // Process all MnemonicAliases to remap the mnemonic.\n"; - OS << " // FIXME : Add an entry in AsmParserVariant to check this.\n"; - OS << " if (!VariantID)\n"; - OS << " applyMnemonicAliases(Mnemonic, AvailableFeatures);\n\n"; + OS << " applyMnemonicAliases(Mnemonic, AvailableFeatures, VariantID);\n\n"; } // Emit code to compute the class list for this operand vector. @@ -2848,10 +2939,20 @@ void AsmMatcherEmitter::run(raw_ostream &OS) { OS << " ErrorInfo = ~0U;\n"; // Emit code to search the table. + OS << " // Find the appropriate table for this asm variant.\n"; + OS << " const MatchEntry *Start, *End;\n"; + OS << " switch (VariantID) {\n"; + OS << " default: // unreachable\n"; + for (unsigned VC = 0; VC != VariantCount; ++VC) { + Record *AsmVariant = Target.getAsmParserVariant(VC); + int AsmVariantNo = AsmVariant->getValueAsInt("Variant"); + OS << " case " << AsmVariantNo << ": Start = MatchTable" << VC + << "; End = array_endof(MatchTable" << VC << "); break;\n"; + } + OS << " }\n"; OS << " // Search the table.\n"; OS << " std::pair MnemonicRange =\n"; - OS << " std::equal_range(MatchTable, MatchTable+" - << Info.Matchables.size() << ", Mnemonic, LessOpcode());\n\n"; + OS << " std::equal_range(Start, End, Mnemonic, LessOpcode());\n\n"; OS << " // Return a more specific error code if no mnemonics match.\n"; OS << " if (MnemonicRange.first == MnemonicRange.second)\n"; @@ -2865,7 +2966,6 @@ void AsmMatcherEmitter::run(raw_ostream &OS) { OS << " assert(Mnemonic == it->getMnemonic());\n"; // Emit check that the subclasses match. - OS << " if (VariantID != it->AsmVariantID) continue;\n"; OS << " bool OperandsValid = true;\n"; OS << " for (unsigned i = 0; i != " << MaxNumOperands << "; ++i) {\n"; OS << " if (i + 1 >= Operands.size()) {\n"; @@ -2945,6 +3045,14 @@ void AsmMatcherEmitter::run(raw_ostream &OS) { if (!InsnCleanupFn.empty()) OS << " " << InsnCleanupFn << "(Inst);\n"; + if (HasDeprecation) { + OS << " std::string Info;\n"; + OS << " if (MII.get(Inst.getOpcode()).getDeprecatedInfo(Inst, STI, Info)) {\n"; + OS << " SMLoc Loc = ((" << Target.getName() << "Operand*)Operands[0])->getStartLoc();\n"; + OS << " Parser.Warning(Loc, Info, None);\n"; + OS << " }\n"; + } + OS << " return Match_Success;\n"; OS << " }\n\n";