}
/// operator< - Compare two classes.
+ // FIXME: This ordering seems to be broken. For example:
+ // u64 < i64, i64 < s8, s8 < u64, forming a cycle
+ // u64 is a subset of i64
+ // i64 and s8 are not subsets of each other, so are ordered by name
+ // s8 and u64 are not subsets of each other, so are ordered by name
bool operator<(const ClassInfo &RHS) const {
if (this == &RHS)
return false;
}
};
+class AsmVariantInfo {
+public:
+ std::string RegisterPrefix;
+ std::string TokenizingCharacters;
+ std::string SeparatorCharacters;
+ std::string BreakCharacters;
+ int AsmVariantNo;
+};
+
/// MatchableInfo - Helper class for storing the necessary information for an
/// instruction or alias which is capable of being matched.
struct MatchableInfo {
/// The suboperand index within SrcOpName, or -1 for the entire operand.
int SubOpIdx;
+ /// Whether the token is "isolated", i.e., it is preceded and followed
+ /// by separators.
+ bool IsIsolatedToken;
+
/// Register record if this token is singleton register.
Record *SingletonReg;
- explicit AsmOperand(StringRef T) : Token(T), Class(nullptr), SubOpIdx(-1),
- SingletonReg(nullptr) {}
+ explicit AsmOperand(bool IsIsolatedToken, StringRef T)
+ : Token(T), Class(nullptr), SubOpIdx(-1),
+ IsIsolatedToken(IsIsolatedToken), SingletonReg(nullptr) {}
};
/// ResOperand - This represents a single operand in the result instruction
/// If this instruction is deprecated in some form.
bool HasDeprecation;
+ /// If this is an alias, this is use to determine whether or not to using
+ /// the conversion function defined by the instruction's AsmMatchConverter
+ /// or to use the function generated by the alias.
+ bool UseInstAsmMatchConverter;
+
MatchableInfo(const CodeGenInstruction &CGI)
- : AsmVariantID(0), AsmString(CGI.AsmString), TheDef(CGI.TheDef), DefRec(&CGI) {
+ : AsmVariantID(0), AsmString(CGI.AsmString), TheDef(CGI.TheDef), DefRec(&CGI),
+ UseInstAsmMatchConverter(true) {
}
MatchableInfo(std::unique_ptr<const CodeGenInstAlias> Alias)
- : AsmVariantID(0), AsmString(Alias->AsmString), TheDef(Alias->TheDef), DefRec(Alias.release()) {
+ : AsmVariantID(0), AsmString(Alias->AsmString), TheDef(Alias->TheDef),
+ DefRec(Alias.release()),
+ UseInstAsmMatchConverter(
+ TheDef->getValueAsBit("UseInstAsmMatchConverter")) {
+ }
+
+ // Could remove this and the dtor if PointerUnion supported unique_ptr
+ // elements with a dynamic failure/assertion (like the one below) in the case
+ // where it was copied while being in an owning state.
+ MatchableInfo(const MatchableInfo &RHS)
+ : AsmVariantID(RHS.AsmVariantID), AsmString(RHS.AsmString),
+ TheDef(RHS.TheDef), DefRec(RHS.DefRec), ResOperands(RHS.ResOperands),
+ Mnemonic(RHS.Mnemonic), AsmOperands(RHS.AsmOperands),
+ RequiredFeatures(RHS.RequiredFeatures),
+ ConversionFnKind(RHS.ConversionFnKind),
+ HasDeprecation(RHS.HasDeprecation),
+ UseInstAsmMatchConverter(RHS.UseInstAsmMatchConverter) {
+ assert(!DefRec.is<const CodeGenInstAlias *>());
}
~MatchableInfo() {
void initialize(const AsmMatcherInfo &Info,
SmallPtrSetImpl<Record*> &SingletonRegisters,
- int AsmVariantNo, std::string &RegisterPrefix);
+ AsmVariantInfo const &Variant);
/// validate - Return true if this matchable is a valid thing to match against
/// and perform a bunch of validity checking.
bool validate(StringRef CommentDelimiter, bool Hack) const;
- /// extractSingletonRegisterForAsmOperand - Extract singleton register,
- /// if present, from specified token.
- void
- extractSingletonRegisterForAsmOperand(unsigned i, const AsmMatcherInfo &Info,
- std::string &RegisterPrefix);
-
/// findAsmOperand - Find the AsmOperand with the specified name and
/// suboperand index.
int findAsmOperand(StringRef N, int SubOpIdx) const {
void dump() const;
private:
- void tokenizeAsmString(const AsmMatcherInfo &Info);
+ void tokenizeAsmString(AsmMatcherInfo const &Info,
+ AsmVariantInfo const &Variant);
+ void addAsmOperand(StringRef Token, bool IsIsolatedToken = false);
};
/// SubtargetFeatureInfo - Helper class for storing information on a subtarget
// Find the ResOperand that refers to the operand we're aliasing away
// and update it to refer to the combined operand instead.
- for (unsigned i = 0, e = ResOperands.size(); i != e; ++i) {
- ResOperand &Op = ResOperands[i];
+ for (ResOperand &Op : ResOperands) {
if (Op.Kind == ResOperand::RenderAsmOperand &&
Op.AsmOperandNum == (unsigned)SrcAsmOperand) {
Op.AsmOperandNum = DstAsmOperand;
AsmOperands.erase(AsmOperands.begin() + SrcAsmOperand);
// Adjust the ResOperand references to any AsmOperands that followed
// the one we just deleted.
- for (unsigned i = 0, e = ResOperands.size(); i != e; ++i) {
- ResOperand &Op = ResOperands[i];
+ for (ResOperand &Op : ResOperands) {
switch(Op.Kind) {
default:
// Nothing to do for operands that don't reference AsmOperands.
}
}
+/// extractSingletonRegisterForAsmOperand - Extract singleton register,
+/// if present, from specified token.
+static void
+extractSingletonRegisterForAsmOperand(MatchableInfo::AsmOperand &Op,
+ const AsmMatcherInfo &Info,
+ StringRef RegisterPrefix) {
+ StringRef Tok = Op.Token;
+
+ // If this token is not an isolated token, i.e., it isn't separated from
+ // other tokens (e.g. with whitespace), don't interpret it as a register name.
+ if (!Op.IsIsolatedToken)
+ return;
+
+ if (RegisterPrefix.empty()) {
+ std::string LoweredTok = Tok.lower();
+ if (const CodeGenRegister *Reg = Info.Target.getRegisterByName(LoweredTok))
+ Op.SingletonReg = Reg->TheDef;
+ return;
+ }
+
+ if (!Tok.startswith(RegisterPrefix))
+ return;
+
+ StringRef RegName = Tok.substr(RegisterPrefix.size());
+ if (const CodeGenRegister *Reg = Info.Target.getRegisterByName(RegName))
+ Op.SingletonReg = Reg->TheDef;
+
+ // If there is no register prefix (i.e. "%" in "%eax"), then this may
+ // be some random non-register token, just ignore it.
+ return;
+}
+
void MatchableInfo::initialize(const AsmMatcherInfo &Info,
SmallPtrSetImpl<Record*> &SingletonRegisters,
- int AsmVariantNo, std::string &RegisterPrefix) {
- AsmVariantID = AsmVariantNo;
+ AsmVariantInfo const &Variant) {
+ AsmVariantID = Variant.AsmVariantNo;
AsmString =
- CodeGenInstruction::FlattenAsmStringVariants(AsmString, AsmVariantNo);
+ CodeGenInstruction::FlattenAsmStringVariants(AsmString,
+ Variant.AsmVariantNo);
- tokenizeAsmString(Info);
+ tokenizeAsmString(Info, Variant);
// Compute the require features.
- std::vector<Record*> Predicates =TheDef->getValueAsListOfDefs("Predicates");
- for (unsigned i = 0, e = Predicates.size(); i != e; ++i)
+ for (Record *Predicate : TheDef->getValueAsListOfDefs("Predicates"))
if (const SubtargetFeatureInfo *Feature =
- Info.getSubtargetFeature(Predicates[i]))
+ Info.getSubtargetFeature(Predicate))
RequiredFeatures.push_back(Feature);
// Collect singleton registers, if used.
- for (unsigned i = 0, e = AsmOperands.size(); i != e; ++i) {
- extractSingletonRegisterForAsmOperand(i, Info, RegisterPrefix);
- if (Record *Reg = AsmOperands[i].SingletonReg)
+ for (MatchableInfo::AsmOperand &Op : AsmOperands) {
+ extractSingletonRegisterForAsmOperand(Op, Info, Variant.RegisterPrefix);
+ if (Record *Reg = Op.SingletonReg)
SingletonRegisters.insert(Reg);
}
DepMask ? !DepMask->getValue()->getAsUnquotedString().empty() : false;
}
+/// Append an AsmOperand for the given substring of AsmString.
+void MatchableInfo::addAsmOperand(StringRef Token, bool IsIsolatedToken) {
+ AsmOperands.push_back(AsmOperand(IsIsolatedToken, Token));
+}
+
/// tokenizeAsmString - Tokenize a simplified assembly string.
-void MatchableInfo::tokenizeAsmString(const AsmMatcherInfo &Info) {
+void MatchableInfo::tokenizeAsmString(const AsmMatcherInfo &Info,
+ AsmVariantInfo const &Variant) {
StringRef String = AsmString;
- unsigned Prev = 0;
- bool InTok = true;
- for (unsigned i = 0, e = String.size(); i != e; ++i) {
- switch (String[i]) {
- case '[':
- case ']':
- case '*':
- case '!':
- case ' ':
- case '\t':
- case ',':
+ size_t Prev = 0;
+ bool InTok = false;
+ bool IsIsolatedToken = true;
+ for (size_t i = 0, e = String.size(); i != e; ++i) {
+ char Char = String[i];
+ if (Variant.BreakCharacters.find(Char) != std::string::npos) {
+ if (InTok) {
+ addAsmOperand(String.slice(Prev, i), false);
+ Prev = i;
+ IsIsolatedToken = false;
+ }
+ InTok = true;
+ continue;
+ }
+ if (Variant.TokenizingCharacters.find(Char) != std::string::npos) {
if (InTok) {
- AsmOperands.push_back(AsmOperand(String.slice(Prev, i)));
+ addAsmOperand(String.slice(Prev, i), IsIsolatedToken);
InTok = false;
+ IsIsolatedToken = false;
}
- if (!isspace(String[i]) && String[i] != ',')
- AsmOperands.push_back(AsmOperand(String.substr(i, 1)));
+ addAsmOperand(String.slice(i, i + 1), IsIsolatedToken);
Prev = i + 1;
- break;
+ IsIsolatedToken = true;
+ continue;
+ }
+ if (Variant.SeparatorCharacters.find(Char) != std::string::npos) {
+ if (InTok) {
+ addAsmOperand(String.slice(Prev, i), IsIsolatedToken);
+ InTok = false;
+ }
+ Prev = i + 1;
+ IsIsolatedToken = true;
+ continue;
+ }
+ switch (Char) {
case '\\':
if (InTok) {
- AsmOperands.push_back(AsmOperand(String.slice(Prev, i)));
+ addAsmOperand(String.slice(Prev, i), false);
InTok = false;
+ IsIsolatedToken = false;
}
++i;
assert(i != String.size() && "Invalid quoted character");
- AsmOperands.push_back(AsmOperand(String.substr(i, 1)));
+ addAsmOperand(String.slice(i, i + 1), IsIsolatedToken);
Prev = i + 1;
+ IsIsolatedToken = false;
break;
case '$': {
if (InTok) {
- AsmOperands.push_back(AsmOperand(String.slice(Prev, i)));
+ addAsmOperand(String.slice(Prev, i), false);
InTok = false;
+ IsIsolatedToken = false;
}
- // If this isn't "${", treat like a normal token.
+ // If this isn't "${", start new identifier looking like "$xxx"
if (i + 1 == String.size() || String[i + 1] != '{') {
Prev = i;
break;
}
- StringRef::iterator End = std::find(String.begin() + i, String.end(),'}');
- assert(End != String.end() && "Missing brace in operand reference!");
- size_t EndPos = End - String.begin();
- AsmOperands.push_back(AsmOperand(String.slice(i, EndPos+1)));
+ size_t EndPos = String.find('}', i);
+ assert(EndPos != StringRef::npos &&
+ "Missing brace in operand reference!");
+ addAsmOperand(String.slice(i, EndPos+1), IsIsolatedToken);
Prev = EndPos + 1;
i = EndPos;
+ IsIsolatedToken = false;
break;
}
- case '.':
- if (!Info.AsmParser->getValueAsBit("MnemonicContainsDot")) {
- if (InTok)
- AsmOperands.push_back(AsmOperand(String.slice(Prev, i)));
- Prev = i;
- }
- InTok = true;
- break;
-
default:
InTok = true;
+ break;
}
}
if (InTok && Prev != String.size())
- AsmOperands.push_back(AsmOperand(String.substr(Prev)));
+ addAsmOperand(String.substr(Prev), IsIsolatedToken);
// The first token of the instruction is the mnemonic, which must be a
// simple string, not a $foo variable or a singleton register.
if (AsmOperands.empty())
PrintFatalError(TheDef->getLoc(),
"Instruction '" + TheDef->getName() + "' has no tokens");
- Mnemonic = AsmOperands[0].Token;
- if (Mnemonic.empty())
- PrintFatalError(TheDef->getLoc(),
- "Missing instruction mnemonic");
- // FIXME : Check and raise an error if it is a register.
- if (Mnemonic[0] == '$')
- PrintFatalError(TheDef->getLoc(),
- "Invalid instruction mnemonic '" + Mnemonic + "'!");
-
- // Remove the first operand, it is tracked in the mnemonic field.
- AsmOperands.erase(AsmOperands.begin());
+ assert(!AsmOperands[0].Token.empty());
+ if (AsmOperands[0].Token[0] != '$')
+ Mnemonic = AsmOperands[0].Token;
}
bool MatchableInfo::validate(StringRef CommentDelimiter, bool Hack) const {
// Also, check for instructions which reference the operand multiple times;
// this implies a constraint we would not honor.
std::set<std::string> OperandNames;
- for (unsigned i = 0, e = AsmOperands.size(); i != e; ++i) {
- StringRef Tok = AsmOperands[i].Token;
+ for (const AsmOperand &Op : AsmOperands) {
+ StringRef Tok = Op.Token;
if (Tok[0] == '$' && Tok.find(':') != StringRef::npos)
PrintFatalError(TheDef->getLoc(),
"matchable with operand modifier '" + Tok +
return true;
}
-/// extractSingletonRegisterForAsmOperand - Extract singleton register,
-/// if present, from specified token.
-void MatchableInfo::
-extractSingletonRegisterForAsmOperand(unsigned OperandNo,
- const AsmMatcherInfo &Info,
- std::string &RegisterPrefix) {
- StringRef Tok = AsmOperands[OperandNo].Token;
- if (RegisterPrefix.empty()) {
- std::string LoweredTok = Tok.lower();
- if (const CodeGenRegister *Reg = Info.Target.getRegisterByName(LoweredTok))
- AsmOperands[OperandNo].SingletonReg = Reg->TheDef;
- return;
- }
-
- if (!Tok.startswith(RegisterPrefix))
- return;
-
- StringRef RegName = Tok.substr(RegisterPrefix.size());
- if (const CodeGenRegister *Reg = Info.Target.getRegisterByName(RegName))
- AsmOperands[OperandNo].SingletonReg = Reg->TheDef;
-
- // If there is no register prefix (i.e. "%" in "%eax"), then this may
- // be some random non-register token, just ignore it.
- return;
-}
-
static std::string getEnumNameForToken(StringRef Str) {
std::string Res;
CI->Kind = ClassInfo::UserClass0 + Index;
ListInit *Supers = Rec->getValueAsListInit("SuperClasses");
- for (unsigned i = 0, e = Supers->getSize(); i != e; ++i) {
- DefInit *DI = dyn_cast<DefInit>(Supers->getElement(i));
+ for (Init *I : Supers->getValues()) {
+ DefInit *DI = dyn_cast<DefInit>(I);
if (!DI) {
PrintError(Rec->getLoc(), "Invalid super class reference!");
continue;
Record *AsmVariant = Target.getAsmParserVariant(VC);
std::string CommentDelimiter =
AsmVariant->getValueAsString("CommentDelimiter");
- std::string RegisterPrefix = AsmVariant->getValueAsString("RegisterPrefix");
- int AsmVariantNo = AsmVariant->getValueAsInt("Variant");
+ AsmVariantInfo Variant;
+ Variant.RegisterPrefix = AsmVariant->getValueAsString("RegisterPrefix");
+ Variant.TokenizingCharacters =
+ AsmVariant->getValueAsString("TokenizingCharacters");
+ Variant.SeparatorCharacters =
+ AsmVariant->getValueAsString("SeparatorCharacters");
+ Variant.BreakCharacters =
+ AsmVariant->getValueAsString("BreakCharacters");
+ Variant.AsmVariantNo = AsmVariant->getValueAsInt("Variant");
for (const CodeGenInstruction *CGI : Target.instructions()) {
if (CGI->TheDef->getValueAsBit("isCodeGenOnly"))
continue;
- std::unique_ptr<MatchableInfo> II(new MatchableInfo(*CGI));
+ auto II = llvm::make_unique<MatchableInfo>(*CGI);
- II->initialize(*this, SingletonRegisters, AsmVariantNo, RegisterPrefix);
+ II->initialize(*this, SingletonRegisters, Variant);
// Ignore instructions which shouldn't be matched and diagnose invalid
// instruction definitions with an error.
Records.getAllDerivedDefinitions("InstAlias");
for (unsigned i = 0, e = AllInstAliases.size(); i != e; ++i) {
auto Alias = llvm::make_unique<CodeGenInstAlias>(AllInstAliases[i],
- AsmVariantNo, Target);
+ Variant.AsmVariantNo,
+ Target);
// If the tblgen -match-prefix option is specified (for tblgen hackers),
// filter the set of instruction aliases we consider, based on the target
.startswith( MatchPrefix))
continue;
- std::unique_ptr<MatchableInfo> II(new MatchableInfo(std::move(Alias)));
+ auto II = llvm::make_unique<MatchableInfo>(std::move(Alias));
- II->initialize(*this, SingletonRegisters, AsmVariantNo, RegisterPrefix);
+ II->initialize(*this, SingletonRegisters, Variant);
// Validate the alias definitions.
II->validate(CommentDelimiter, false);
StringRef Token = Op.Token;
// Check for singleton registers.
- if (Record *RegRecord = II->AsmOperands[i].SingletonReg) {
+ if (Record *RegRecord = Op.SingletonReg) {
Op.Class = RegisterClasses[RegRecord];
assert(Op.Class && Op.Class->Registers.size() == 1 &&
"Unexpected class for singleton register");
II->TheDef->getValueAsString("TwoOperandAliasConstraint");
if (Constraint != "") {
// Start by making a copy of the original matchable.
- std::unique_ptr<MatchableInfo> AliasII(new MatchableInfo(*II));
+ auto AliasII = llvm::make_unique<MatchableInfo>(*II);
// Adjust it to be a two-operand alias.
AliasII->formTwoOperandAlias(Constraint);
II->buildAliasResultOperands();
}
if (!NewMatchables.empty())
- std::move(NewMatchables.begin(), NewMatchables.end(),
- std::back_inserter(Matchables));
+ Matchables.insert(Matchables.end(),
+ std::make_move_iterator(NewMatchables.begin()),
+ std::make_move_iterator(NewMatchables.end()));
// Process token alias definitions and set up the associated superclass
// information.
std::vector<Record*> AllTokenAliases =
Records.getAllDerivedDefinitions("TokenAlias");
- for (unsigned i = 0, e = AllTokenAliases.size(); i != e; ++i) {
- Record *Rec = AllTokenAliases[i];
+ for (Record *Rec : AllTokenAliases) {
ClassInfo *FromClass = getTokenClass(Rec->getValueAsString("FromToken"));
ClassInfo *ToClass = getTokenClass(Rec->getValueAsString("ToToken"));
if (FromClass == ToClass)
// Insert remaining suboperands after AsmOpIdx in II->AsmOperands.
StringRef Token = Op->Token; // save this in case Op gets moved
for (unsigned SI = 1, SE = Operands[Idx].MINumOperands; SI != SE; ++SI) {
- MatchableInfo::AsmOperand NewAsmOp(Token);
+ MatchableInfo::AsmOperand NewAsmOp(/*IsIsolatedToken=*/true, Token);
NewAsmOp.SubOpIdx = SI;
II->AsmOperands.insert(II->AsmOperands.begin()+AsmOpIdx+SI, NewAsmOp);
}
// Loop over all operands of the result instruction, determining how to
// populate them.
- for (unsigned i = 0, e = ResultInst->Operands.size(); i != e; ++i) {
- const CGIOperandList::OperandInfo &OpInfo = ResultInst->Operands[i];
-
+ for (const CGIOperandList::OperandInfo &OpInfo : ResultInst->Operands) {
// If this is a tied operand, just copy from the previously handled operand.
int TiedOp = -1;
if (OpInfo.MINumOperands == 1)
}
static unsigned getConverterOperandID(const std::string &Name,
- SetVector<std::string> &Table,
+ SmallSetVector<std::string, 16> &Table,
bool &IsNew) {
IsNew = Table.insert(Name);
static void emitConvertFuncs(CodeGenTarget &Target, StringRef ClassName,
std::vector<std::unique_ptr<MatchableInfo>> &Infos,
raw_ostream &OS) {
- SetVector<std::string> OperandConversionKinds;
- SetVector<std::string> InstructionConversionKinds;
+ SmallSetVector<std::string, 16> OperandConversionKinds;
+ SmallSetVector<std::string, 16> InstructionConversionKinds;
std::vector<std::vector<uint8_t> > ConversionTable;
size_t MaxRowLength = 2; // minimum is custom converter plus terminator.
// Check if we have a custom match function.
std::string AsmMatchConverter =
II->getResultInst()->TheDef->getValueAsString("AsmMatchConverter");
- if (!AsmMatchConverter.empty()) {
+ if (!AsmMatchConverter.empty() && II->UseInstAsmMatchConverter) {
std::string Signature = "ConvertCustom_" + AsmMatchConverter;
II->ConversionFnKind = Signature;
getEnumNameForToken(AsmMatchConverter));
// Add the converter row for this instruction.
- ConversionTable.push_back(std::vector<uint8_t>());
+ ConversionTable.emplace_back();
ConversionTable.back().push_back(KindID);
ConversionTable.back().push_back(CVT_Done);
// Add the operand entry to the instruction kind conversion row.
ConversionRow.push_back(ID);
- ConversionRow.push_back(OpInfo.AsmOperandNum + 1);
+ ConversionRow.push_back(OpInfo.AsmOperandNum);
if (!IsNewConverter)
break;
break;
CvtOS << " case " << Name << ":\n"
- << " Inst.addOperand(MCOperand::CreateImm(" << Val << "));\n"
+ << " Inst.addOperand(MCOperand::createImm(" << Val << "));\n"
<< " break;\n";
OpOS << " case " << Name << ":\n"
if (!IsNewConverter)
break;
CvtOS << " case " << Name << ":\n"
- << " Inst.addOperand(MCOperand::CreateReg(" << Reg << "));\n"
+ << " Inst.addOperand(MCOperand::createReg(" << Reg << "));\n"
<< " break;\n";
OpOS << " case " << Name << ":\n"
continue;
// Add the row to the table.
- ConversionTable.push_back(ConversionRow);
+ ConversionTable.push_back(std::move(ConversionRow));
}
// Finish up the converter driver function.
// Output the instruction conversion kind enum.
OS << "enum InstructionConversionKind {\n";
- for (SetVector<std::string>::const_iterator
- i = InstructionConversionKinds.begin(),
- e = InstructionConversionKinds.end(); i != e; ++i)
- OS << " " << *i << ",\n";
+ for (const std::string &Signature : InstructionConversionKinds)
+ OS << " " << Signature << ",\n";
OS << " CVT_NUM_SIGNATURES\n";
OS << "};\n\n";
OS << " if (A == B)\n";
OS << " return true;\n\n";
- std::string OStr;
- raw_string_ostream SS(OStr);
- unsigned Count = 0;
- SS << " switch (A) {\n";
- SS << " default:\n";
- SS << " return false;\n";
+ bool EmittedSwitch = false;
for (const auto &A : Infos) {
std::vector<StringRef> SuperClasses;
for (const auto &B : Infos) {
if (SuperClasses.empty())
continue;
- ++Count;
- SS << "\n case " << A.Name << ":\n";
+ // If this is the first SuperClass, emit the switch header.
+ if (!EmittedSwitch) {
+ OS << " switch (A) {\n";
+ OS << " default:\n";
+ OS << " return false;\n";
+ EmittedSwitch = true;
+ }
+
+ OS << "\n case " << A.Name << ":\n";
if (SuperClasses.size() == 1) {
- SS << " return B == " << SuperClasses.back().str() << ";\n";
+ OS << " return B == " << SuperClasses.back() << ";\n";
continue;
}
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";
+ OS << " switch (B) {\n";
+ OS << " default: return false;\n";
+ for (StringRef SC : SuperClasses)
+ OS << " case " << SC << ": return true;\n";
+ OS << " }\n";
} else {
// No case statement to emit
- SS << " return false;\n";
+ OS << " return false;\n";
}
}
- SS << " }\n";
+ OS << " }\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
+ // If there were case statements emitted into the string stream write the
+ // default.
+ if (!EmittedSwitch)
OS << " return false;\n";
OS << "}\n\n";
std::vector<StringMatcher::StringPair> Matches;
for (const auto &CI : Infos) {
if (CI.Kind == ClassInfo::Token)
- Matches.push_back(
- StringMatcher::StringPair(CI.ValueName, "return " + CI.Name + ";"));
+ Matches.emplace_back(CI.ValueName, "return " + CI.Name + ";");
}
OS << "static MatchClassKind matchTokenString(StringRef Name) {\n";
if (Reg.TheDef->getValueAsString("AsmName").empty())
continue;
- Matches.push_back(
- StringMatcher::StringPair(Reg.TheDef->getValueAsString("AsmName"),
- "return " + utostr(Reg.EnumValue) + ";"));
+ Matches.emplace_back(Reg.TheDef->getValueAsString("AsmName"),
+ "return " + utostr(Reg.EnumValue) + ";");
}
OS << "static unsigned MatchRegisterName(StringRef Name) {\n";
Info.AsmParser->getValueAsString("AsmParserClassName");
OS << "uint64_t " << Info.Target.getName() << ClassName << "::\n"
- << "ComputeAvailableFeatures(uint64_t FB) const {\n";
+ << "ComputeAvailableFeatures(const FeatureBitset& FB) const {\n";
OS << " uint64_t Features = 0;\n";
for (const auto &SF : Info.SubtargetFeatures) {
const SubtargetFeatureInfo &SFI = SF.second;
Cond = Cond.substr(1);
}
- OS << "((FB & " << Info.Target.getName() << "::" << Cond << ")";
+ OS << "(";
if (Neg)
- OS << " == 0";
- else
- OS << " != 0";
- OS << ")";
+ OS << "!";
+ OS << "FB[" << Info.Target.getName() << "::" << Cond << "])";
if (Comma.second.empty())
break;
OS << " uint64_t AvailableFeatures = getAvailableFeatures();\n\n";
OS << " // Get the next operand index.\n";
- OS << " unsigned NextOpNum = Operands.size()-1;\n";
+ OS << " unsigned NextOpNum = Operands.size();\n";
// Emit code to search the table.
OS << " // Search the table.\n";
OS << " std::pair<const OperandMatchEntry*, const OperandMatchEntry*>";
- OS << " MnemonicRange =\n";
- OS << " std::equal_range(OperandMatchTable, OperandMatchTable+"
+ OS << " MnemonicRange\n";
+ OS << " (OperandMatchTable, OperandMatchTable+";
+ OS << Info.OperandMatchInfo.size() << ");\n";
+ OS << " if(!Mnemonic.empty())\n";
+ OS << " MnemonicRange = std::equal_range(OperandMatchTable,";
+ OS << " OperandMatchTable+"
<< Info.OperandMatchInfo.size() << ", Mnemonic,\n"
<< " LessOpcodeOperand());\n\n";
OS << "#undef GET_ASSEMBLER_HEADER\n";
OS << " // This should be included into the middle of the declaration of\n";
OS << " // your subclasses implementation of MCTargetAsmParser.\n";
- OS << " uint64_t ComputeAvailableFeatures(uint64_t FeatureBits) const;\n";
+ OS << " uint64_t ComputeAvailableFeatures(const FeatureBitset& FB) const;\n";
OS << " void convertToMCInst(unsigned Kind, MCInst &Inst, "
<< "unsigned Opcode,\n"
<< " const OperandVector "
<< "&Operands);\n";
OS << " void convertToMapAndConstraints(unsigned Kind,\n ";
OS << " const OperandVector &Operands) override;\n";
- OS << " bool mnemonicIsValid(StringRef Mnemonic, unsigned VariantID) override;\n";
+ OS << " bool mnemonicIsValid(StringRef Mnemonic, unsigned VariantID);\n";
OS << " unsigned MatchInstructionImpl(const OperandVector &Operands,\n"
<< " MCInst &Inst,\n"
<< " uint64_t &ErrorInfo,"
<< " bool matchingInlineAsm, unsigned VariantID) {\n";
OS << " // Eliminate obvious mismatches.\n";
- OS << " if (Operands.size() > " << (MaxNumOperands+1) << ") {\n";
- OS << " ErrorInfo = " << (MaxNumOperands+1) << ";\n";
+ OS << " if (Operands.size() > " << MaxNumOperands << ") {\n";
+ OS << " ErrorInfo = " << MaxNumOperands << ";\n";
OS << " return Match_InvalidOperand;\n";
OS << " }\n\n";
OS << " uint64_t AvailableFeatures = getAvailableFeatures();\n\n";
OS << " // Get the instruction mnemonic, which is the first token.\n";
- OS << " StringRef Mnemonic = ((" << Target.getName()
+ OS << " StringRef Mnemonic;\n";
+ OS << " if (Operands[0]->isToken())\n";
+ OS << " Mnemonic = ((" << Target.getName()
<< "Operand&)*Operands[0]).getToken();\n\n";
if (HasMnemonicAliases) {
OS << " uint64_t MissingFeatures = ~0ULL;\n";
OS << " // Set ErrorInfo to the operand that mismatches if it is\n";
OS << " // wrong for all instances of the instruction.\n";
- OS << " ErrorInfo = ~0U;\n";
+ OS << " ErrorInfo = ~0ULL;\n";
// Emit code to search the table.
OS << " // Find the appropriate table for this asm variant.\n";
}
OS << " }\n";
OS << " // Search the table.\n";
- OS << " std::pair<const MatchEntry*, const MatchEntry*> MnemonicRange =\n";
- OS << " std::equal_range(Start, End, Mnemonic, LessOpcode());\n\n";
+ OS << " std::pair<const MatchEntry*, const MatchEntry*> "
+ "MnemonicRange(Start, End);\n";
+ OS << " unsigned SIndex = Mnemonic.empty() ? 0 : 1;\n";
+ OS << " if (!Mnemonic.empty())\n";
+ OS << " MnemonicRange = std::equal_range(Start, End, Mnemonic.lower(), LessOpcode());\n\n";
OS << " // Return a more specific error code if no mnemonics match.\n";
OS << " if (MnemonicRange.first == MnemonicRange.second)\n";
<< "*ie = MnemonicRange.second;\n";
OS << " it != ie; ++it) {\n";
- OS << " // equal_range guarantees that instruction mnemonic matches.\n";
- OS << " assert(Mnemonic == it->getMnemonic());\n";
-
// Emit check that the subclasses match.
OS << " bool OperandsValid = true;\n";
- OS << " for (unsigned i = 0; i != " << MaxNumOperands << "; ++i) {\n";
- OS << " if (i + 1 >= Operands.size()) {\n";
- OS << " OperandsValid = (it->Classes[i] == " <<"InvalidMatchClass);\n";
- OS << " if (!OperandsValid) ErrorInfo = i + 1;\n";
+ OS << " for (unsigned i = SIndex; i != " << MaxNumOperands << "; ++i) {\n";
+ OS << " auto Formal = static_cast<MatchClassKind>(it->Classes[i]);\n";
+ OS << " if (i >= Operands.size()) {\n";
+ OS << " OperandsValid = (Formal == " <<"InvalidMatchClass);\n";
+ OS << " if (!OperandsValid) ErrorInfo = i;\n";
OS << " break;\n";
OS << " }\n";
- OS << " unsigned Diag = validateOperandClass(*Operands[i+1],\n";
- OS.indent(43);
- OS << "(MatchClassKind)it->Classes[i]);\n";
+ OS << " MCParsedAsmOperand &Actual = *Operands[i];\n";
+ OS << " unsigned Diag = validateOperandClass(Actual, Formal);\n";
OS << " if (Diag == Match_Success)\n";
OS << " continue;\n";
OS << " // If the generic handler indicates an invalid operand\n";
OS << " // failure, check for a special case.\n";
OS << " if (Diag == Match_InvalidOperand) {\n";
- OS << " Diag = validateTargetOperandClass(*Operands[i+1],\n";
- OS.indent(43);
- OS << "(MatchClassKind)it->Classes[i]);\n";
+ OS << " Diag = validateTargetOperandClass(Actual, Formal);\n";
OS << " if (Diag == Match_Success)\n";
OS << " continue;\n";
OS << " }\n";
OS << " // If we already had a match that only failed due to a\n";
OS << " // target predicate, that diagnostic is preferred.\n";
OS << " if (!HadMatchOtherThanPredicate &&\n";
- OS << " (it == MnemonicRange.first || ErrorInfo <= i+1)) {\n";
- OS << " ErrorInfo = i+1;\n";
+ OS << " (it == MnemonicRange.first || ErrorInfo <= i)) {\n";
+ OS << " ErrorInfo = i;\n";
OS << " // InvalidOperand is the default. Prefer specificity.\n";
OS << " if (Diag != Match_InvalidOperand)\n";
OS << " RetCode = Diag;\n";
if (HasDeprecation) {
OS << " std::string Info;\n";
- OS << " if (MII.get(Inst.getOpcode()).getDeprecatedInfo(Inst, STI, Info)) {\n";
+ OS << " if (MII.get(Inst.getOpcode()).getDeprecatedInfo(Inst, getSTI(), Info)) {\n";
OS << " SMLoc Loc = ((" << Target.getName()
<< "Operand&)*Operands[0]).getStartLoc();\n";
OS << " getParser().Warning(Loc, Info, None);\n";