mlir/test/mlir-tblgen/op-attribute.td - llvm-project - Git at Google

 // RUN: mlir-tblgen -gen-op-decls -I %S/../../include %s | FileCheck %s --check-prefix=DECL
 // RUN: mlir-tblgen -gen-op-defs -I %S/../../include %s | FileCheck %s --check-prefix=DEF
 // RUN: mlir-tblgen -print-records -I %S/../../include %s | FileCheck %s --check-prefix=RECORD

 include "mlir/IR/OpBase.td"

 def Test_Dialect : Dialect {
   let name = "test";
   let cppNamespace = "foobar";
 }
 class NS_Op<string mnemonic, list<OpTrait> traits> :
     Op<Test_Dialect, mnemonic, traits>;

 def SomeAttr : Attr<CPred<"some-condition">, "some attribute kind"> {
   let storageType = "some-attr-kind";
   let returnType = "some-return-type";
   let convertFromStorage = "$_self.some-convert-from-storage()";
   let constBuilderCall = "some-const-builder-call($_builder, $0)";
 }

 def SomeAttrDef : AttrDef<Test_Dialect, "SomeAttr"> {
 }


 // Test required, optional, default-valued attributes
 // ---

 def AOp : NS_Op<"a_op", []> {
   let arguments = (ins
       SomeAttr:$aAttr,
       DefaultValuedAttr<SomeAttr, "4.2">:$bAttr,
       OptionalAttr<SomeAttr>:$cAttr
   );
 }

 // DECL-LABEL: AOp declarations

 // Test attribute name methods
 // ---

 // DECL:      static ::llvm::ArrayRef<::llvm::StringRef> getAttributeNames()
 // DECL-NEXT:   static ::llvm::StringRef attrNames[] =
 // DECL-SAME:     {::llvm::StringRef("aAttr"), ::llvm::StringRef("bAttr"), ::llvm::StringRef("cAttr")};
 // DECL-NEXT:   return ::llvm::makeArrayRef(attrNames);

 // DECL:      ::mlir::StringAttr aAttrAttrName()
 // DECL-NEXT:      return getAttributeNameForIndex(0);
 // DECL:      ::mlir::StringAttr aAttrAttrName(::mlir::OperationName name)
 // DECL-NEXT:      return getAttributeNameForIndex(name, 0);

 // DECL:      ::mlir::StringAttr bAttrAttrName()
 // DECL-NEXT:      return getAttributeNameForIndex(1);
 // DECL:      ::mlir::StringAttr bAttrAttrName(::mlir::OperationName name)
 // DECL-NEXT:      return getAttributeNameForIndex(name, 1);

 // DECL:      ::mlir::StringAttr cAttrAttrName()
 // DECL-NEXT:      return getAttributeNameForIndex(2);
 // DECL:      ::mlir::StringAttr cAttrAttrName(::mlir::OperationName name)
 // DECL-NEXT:      return getAttributeNameForIndex(name, 2);

 // DEF-LABEL: AOp definitions

 // Test verify method
 // ---

 // DEF:      ::mlir::LogicalResult AOpAdaptor::verify
 // DEF:      auto tblgen_aAttr = odsAttrs.get("aAttr");
 // DEF-NEXT: if (!tblgen_aAttr)
 // DEF-NEXT:   return emitError(loc, "'test.a_op' op ""requires attribute 'aAttr'");
 // DEF:      if (tblgen_aAttr && !((some-condition)))
 // DEF-NEXT:   return emitError(loc, "'test.a_op' op ""attribute 'aAttr' failed to satisfy constraint: some attribute kind");
 // DEF:      auto tblgen_bAttr = odsAttrs.get("bAttr");
 // DEF-NEXT: if (tblgen_bAttr && !((some-condition)))
 // DEF-NEXT:   return emitError(loc, "'test.a_op' op ""attribute 'bAttr' failed to satisfy constraint: some attribute kind");
 // DEF:      auto tblgen_cAttr = odsAttrs.get("cAttr");
 // DEF-NEXT: if (tblgen_cAttr && !((some-condition)))
 // DEF-NEXT:   return emitError(loc, "'test.a_op' op ""attribute 'cAttr' failed to satisfy constraint: some attribute kind");

 // Test getter methods
 // ---

 // DEF:      some-attr-kind AOp::aAttrAttr()
 // DEF-NEXT:   (*this)->getAttr(aAttrAttrName()).cast<some-attr-kind>()
 // DEF:      some-return-type AOp::aAttr() {
 // DEF-NEXT:   auto attr = aAttrAttr()
 // DEF-NEXT:   return attr.some-convert-from-storage();

 // DEF:      some-attr-kind AOp::bAttrAttr()
 // DEF-NEXT:   return (*this)->getAttr(bAttrAttrName()).dyn_cast_or_null<some-attr-kind>()
 // DEF:      some-return-type AOp::bAttr() {
 // DEF-NEXT:   auto attr = bAttrAttr();
 // DEF-NEXT:   if (!attr)
 // DEF-NEXT:       return some-const-builder-call(::mlir::Builder((*this)->getContext()), 4.2).some-convert-from-storage();
 // DEF-NEXT:   return attr.some-convert-from-storage();

 // DEF:      some-attr-kind AOp::cAttrAttr()
 // DEF-NEXT:   return (*this)->getAttr(cAttrAttrName()).dyn_cast_or_null<some-attr-kind>()
 // DEF:      ::llvm::Optional<some-return-type> AOp::cAttr() {
 // DEF-NEXT:   auto attr = cAttrAttr()
 // DEF-NEXT:   return attr ? ::llvm::Optional<some-return-type>(attr.some-convert-from-storage()) : (::llvm::None);

 // Test setter methods
 // ---

 // DEF:      void AOp::aAttrAttr(some-attr-kind attr) {
 // DEF-NEXT:   (*this)->setAttr(aAttrAttrName(), attr);
 // DEF:      void AOp::bAttrAttr(some-attr-kind attr) {
 // DEF-NEXT:   (*this)->setAttr(bAttrAttrName(), attr);
 // DEF:      void AOp::cAttrAttr(some-attr-kind attr) {
 // DEF-NEXT:   (*this)->setAttr(cAttrAttrName(), attr);

 // Test remove methods
 // ---

 // DEF: ::mlir::Attribute AOp::removeCAttrAttr() {
 // DEF-NEXT: return (*this)->removeAttr(cAttrAttrName());

 // Test build methods
 // ---

 // DEF:      void AOp::build(
 // DEF:        odsState.addAttribute(aAttrAttrName(odsState.name), aAttr);
 // DEF:        odsState.addAttribute(bAttrAttrName(odsState.name), bAttr);
 // DEF:        if (cAttr) {
 // DEF-NEXT:     odsState.addAttribute(cAttrAttrName(odsState.name), cAttr);

 // DEF:      void AOp::build(
 // DEF:        some-return-type aAttr, some-return-type bAttr, /*optional*/some-attr-kind cAttr
 // DEF:        odsState.addAttribute(aAttrAttrName(odsState.name), some-const-builder-call(odsBuilder, aAttr));

 // DEF:      void AOp::build(
 // DEF:        ::llvm::ArrayRef<::mlir::NamedAttribute> attributes
 // DEF:      odsState.addAttributes(attributes);

 // Test the above but with prefix.

 def Test2_Dialect : Dialect {
   let name = "test2";
   let cppNamespace = "foobar2";
   let emitAccessorPrefix = kEmitAccessorPrefix_Prefixed;
 }
 def AgetOp : Op<Test2_Dialect, "a_get_op", []> {
   let arguments = (ins
       SomeAttr:$aAttr,
       DefaultValuedAttr<SomeAttr, "4.2">:$bAttr,
       OptionalAttr<SomeAttr>:$cAttr
   );
 }

 // DECL-LABEL: AgetOp declarations

 // Test attribute name methods
 // ---

 // DECL:      static ::llvm::ArrayRef<::llvm::StringRef> getAttributeNames()
 // DECL-NEXT:   static ::llvm::StringRef attrNames[] =
 // DECL-SAME:     {::llvm::StringRef("aAttr"), ::llvm::StringRef("bAttr"), ::llvm::StringRef("cAttr")};
 // DECL-NEXT:   return ::llvm::makeArrayRef(attrNames);

 // DECL:      ::mlir::StringAttr getAAttrAttrName()
 // DECL-NEXT:      return getAttributeNameForIndex(0);
 // DECL:      ::mlir::StringAttr getAAttrAttrName(::mlir::OperationName name)
 // DECL-NEXT:      return getAttributeNameForIndex(name, 0);

 // DECL:      ::mlir::StringAttr getBAttrAttrName()
 // DECL-NEXT:      return getAttributeNameForIndex(1);
 // DECL:      ::mlir::StringAttr getBAttrAttrName(::mlir::OperationName name)
 // DECL-NEXT:      return getAttributeNameForIndex(name, 1);

 // DECL:      ::mlir::StringAttr getCAttrAttrName()
 // DECL-NEXT:      return getAttributeNameForIndex(2);
 // DECL:      ::mlir::StringAttr getCAttrAttrName(::mlir::OperationName name)
 // DECL-NEXT:      return getAttributeNameForIndex(name, 2);

 // DEF-LABEL: AgetOp definitions

 // Test verify method
 // ---

 // DEF:      ::mlir::LogicalResult AgetOpAdaptor::verify
 // DEF:      auto tblgen_aAttr = odsAttrs.get("aAttr");
 // DEF-NEXT: if (!tblgen_aAttr)
 // DEF-NEXT.   return emitError(loc, "'test2.a_get_op' op ""requires attribute 'aAttr'");
 // DEF:      if (tblgen_aAttr && !((some-condition)))
 // DEF-NEXT:   return emitError(loc, "'test2.a_get_op' op ""attribute 'aAttr' failed to satisfy constraint: some attribute kind");
 // DEF:      auto tblgen_bAttr = odsAttrs.get("bAttr");
 // DEF-NEXT: if (tblgen_bAttr && !((some-condition)))
 // DEF-NEXT:   return emitError(loc, "'test2.a_get_op' op ""attribute 'bAttr' failed to satisfy constraint: some attribute kind");
 // DEF:      auto tblgen_cAttr = odsAttrs.get("cAttr");
 // DEF-NEXT: if (tblgen_cAttr && !((some-condition)))
 // DEF-NEXT:   return emitError(loc, "'test2.a_get_op' op ""attribute 'cAttr' failed to satisfy constraint: some attribute kind");

 // Test getter methods
 // ---

 // DEF:      some-attr-kind AgetOp::getAAttrAttr()
 // DEF-NEXT:   (*this)->getAttr(getAAttrAttrName()).cast<some-attr-kind>()
 // DEF:      some-return-type AgetOp::getAAttr() {
 // DEF-NEXT:   auto attr = getAAttrAttr()
 // DEF-NEXT:   return attr.some-convert-from-storage();

 // DEF:      some-attr-kind AgetOp::getBAttrAttr()
 // DEF-NEXT:   return (*this)->getAttr(getBAttrAttrName()).dyn_cast_or_null<some-attr-kind>()
 // DEF:      some-return-type AgetOp::getBAttr() {
 // DEF-NEXT:   auto attr = getBAttrAttr();
 // DEF-NEXT:   if (!attr)
 // DEF-NEXT:       return some-const-builder-call(::mlir::Builder((*this)->getContext()), 4.2).some-convert-from-storage();
 // DEF-NEXT:   return attr.some-convert-from-storage();

 // DEF:      some-attr-kind AgetOp::getCAttrAttr()
 // DEF-NEXT:   return (*this)->getAttr(getCAttrAttrName()).dyn_cast_or_null<some-attr-kind>()
 // DEF:      ::llvm::Optional<some-return-type> AgetOp::getCAttr() {
 // DEF-NEXT:   auto attr = getCAttrAttr()
 // DEF-NEXT:   return attr ? ::llvm::Optional<some-return-type>(attr.some-convert-from-storage()) : (::llvm::None);

 // Test setter methods
 // ---

 // DEF:      void AgetOp::setAAttrAttr(some-attr-kind attr) {
 // DEF-NEXT:   (*this)->setAttr(getAAttrAttrName(), attr);
 // DEF:      void AgetOp::setBAttrAttr(some-attr-kind attr) {
 // DEF-NEXT:   (*this)->setAttr(getBAttrAttrName(), attr);
 // DEF:      void AgetOp::setCAttrAttr(some-attr-kind attr) {
 // DEF-NEXT:   (*this)->setAttr(getCAttrAttrName(), attr);

 // Test remove methods
 // ---

 // DEF: ::mlir::Attribute AgetOp::removeCAttrAttr() {
 // DEF-NEXT: return (*this)->removeAttr(getCAttrAttrName());

 // Test build methods
 // ---

 // DEF:      void AgetOp::build(
 // DEF:        odsState.addAttribute(getAAttrAttrName(odsState.name), aAttr);
 // DEF:        odsState.addAttribute(getBAttrAttrName(odsState.name), bAttr);
 // DEF:        if (cAttr) {
 // DEF-NEXT:     odsState.addAttribute(getCAttrAttrName(odsState.name), cAttr);

 // DEF:      void AgetOp::build(
 // DEF:        some-return-type aAttr, some-return-type bAttr, /*optional*/some-attr-kind cAttr
 // DEF:        odsState.addAttribute(getAAttrAttrName(odsState.name), some-const-builder-call(odsBuilder, aAttr));

 // DEF:      void AgetOp::build(
 // DEF:        ::llvm::ArrayRef<::mlir::NamedAttribute> attributes
 // DEF:      odsState.addAttributes(attributes);

 def SomeTypeAttr : TypeAttrBase<"SomeType", "some type attribute">;

 def BOp : NS_Op<"b_op", []> {
   let arguments = (ins
     AnyAttr:$any_attr,
     BoolAttr:$bool_attr,
     I32Attr:$i32_attr,
     I64Attr:$i64_attr,
     F32Attr:$f32_attr,
     F64Attr:$f64_attr,
     StrAttr:$str_attr,
     ElementsAttr:$elements_attr,
     FlatSymbolRefAttr:$function_attr,
     SomeTypeAttr:$some_type_attr,
     ArrayAttr:$array_attr,
     TypedArrayAttrBase<SomeAttr, "SomeAttr array">:$some_attr_array,
     TypeAttr:$type_attr
   );
 }


 // Test common attribute kinds' constraints
 // ---

 // DEF-LABEL: BOpAdaptor::verify
 // DEF: if (tblgen_any_attr && !((true)))
 // DEF: if (tblgen_bool_attr && !((tblgen_bool_attr.isa<::mlir::BoolAttr>())))
 // DEF: if (tblgen_i32_attr && !(((tblgen_i32_attr.isa<::mlir::IntegerAttr>())) && ((tblgen_i32_attr.cast<::mlir::IntegerAttr>().getType().isSignlessInteger(32)))))
 // DEF: if (tblgen_i64_attr && !(((tblgen_i64_attr.isa<::mlir::IntegerAttr>())) && ((tblgen_i64_attr.cast<::mlir::IntegerAttr>().getType().isSignlessInteger(64)))))
 // DEF: if (tblgen_f32_attr && !(((tblgen_f32_attr.isa<::mlir::FloatAttr>())) && ((tblgen_f32_attr.cast<::mlir::FloatAttr>().getType().isF32()))))
 // DEF: if (tblgen_f64_attr && !(((tblgen_f64_attr.isa<::mlir::FloatAttr>())) && ((tblgen_f64_attr.cast<::mlir::FloatAttr>().getType().isF64()))))
 // DEF: if (tblgen_str_attr && !((tblgen_str_attr.isa<::mlir::StringAttr>())))
 // DEF: if (tblgen_elements_attr && !((tblgen_elements_attr.isa<::mlir::ElementsAttr>())))
 // DEF: if (tblgen_function_attr && !((tblgen_function_attr.isa<::mlir::FlatSymbolRefAttr>())))
 // DEF: if (tblgen_some_type_attr && !(((tblgen_some_type_attr.isa<::mlir::TypeAttr>())) && ((tblgen_some_type_attr.cast<::mlir::TypeAttr>().getValue().isa<SomeType>()))))
 // DEF: if (tblgen_array_attr && !((tblgen_array_attr.isa<::mlir::ArrayAttr>())))
 // DEF: if (tblgen_some_attr_array && !(((tblgen_some_attr_array.isa<::mlir::ArrayAttr>())) && (::llvm::all_of(tblgen_some_attr_array.cast<::mlir::ArrayAttr>(), [&](::mlir::Attribute attr) { return (some-condition); }))))
 // DEF: if (tblgen_type_attr && !(((tblgen_type_attr.isa<::mlir::TypeAttr>())) && ((tblgen_type_attr.cast<::mlir::TypeAttr>().getValue().isa<::mlir::Type>()))))

 // Test common attribute kind getters' return types
 // ---

 // DEF: ::mlir::Attribute BOp::any_attr()
 // DEF: bool BOp::bool_attr()
 // DEF: uint32_t BOp::i32_attr()
 // DEF: uint64_t BOp::i64_attr()
 // DEF: ::llvm::APFloat BOp::f32_attr()
 // DEF: ::llvm::APFloat BOp::f64_attr()
 // DEF: ::llvm::StringRef BOp::str_attr()
 // DEF: ::mlir::ElementsAttr BOp::elements_attr()
 // DEF: ::llvm::StringRef BOp::function_attr()
 // DEF: SomeType BOp::some_type_attr()
 // DEF: ::mlir::ArrayAttr BOp::array_attr()
 // DEF: ::mlir::ArrayAttr BOp::some_attr_array()
 // DEF: ::mlir::Type BOp::type_attr()

 // Test building constant values for array attribute kinds
 // ---

 def COp : NS_Op<"c_op", []> {
   let arguments = (ins
     DefaultValuedAttr<I32ArrayAttr, "{1, 2}">:$i32_array_attr,
     DefaultValuedAttr<I64ArrayAttr, "{3, 4}">:$i64_array_attr,
     DefaultValuedAttr<F32ArrayAttr, "{5.f, 6.f}">:$f32_array_attr,
     DefaultValuedAttr<F64ArrayAttr, "{7., 8.}">:$f64_array_attr,
     DefaultValuedAttr<StrArrayAttr, "{\"a\", \"b\"}">:$str_array_attr
   );
 }

 // DEF-LABEL: COp definitions
 // DEF: ::mlir::Builder((*this)->getContext()).getI32ArrayAttr({1, 2})
 // DEF: ::mlir::Builder((*this)->getContext()).getI64ArrayAttr({3, 4})
 // DEF: ::mlir::Builder((*this)->getContext()).getF32ArrayAttr({5.f, 6.f})
 // DEF: ::mlir::Builder((*this)->getContext()).getF64ArrayAttr({7., 8.})
 // DEF: ::mlir::Builder((*this)->getContext()).getStrArrayAttr({"a", "b"})


 // Test builder method which takes unwrapped values for attributes
 // ---

 def I32Case5:  I32EnumAttrCase<"case5", 5>;
 def I32Case10: I32EnumAttrCase<"case10", 10>;

 def SomeI32Enum: I32EnumAttr<
   "SomeI32Enum", "", [I32Case5, I32Case10]>;

 def DOp : NS_Op<"d_op", []> {
   let arguments = (ins
     I32Attr:$i32_attr,
     F64Attr:$f64_attr,
     StrAttr:$str_attr,
     BoolAttr:$bool_attr,
     SomeI32Enum:$enum_attr,
     DefaultValuedAttr<I32Attr, "42">:$dv_i32_attr,
     DefaultValuedAttr<F64Attr, "8.">:$dv_f64_attr,
     DefaultValuedStrAttr<StrAttr, "abc">:$dv_str_attr,
     DefaultValuedAttr<BoolAttr, "true">:$dv_bool_attr,
     DefaultValuedAttr<SomeI32Enum, "::SomeI32Enum::case5">:$dv_enum_attr
   );
 }

 // DECL-LABEL: DOp declarations
 // DECL: static void build({{.*}}, uint32_t i32_attr, ::llvm::APFloat f64_attr, ::llvm::StringRef str_attr, bool bool_attr, ::SomeI32Enum enum_attr, uint32_t dv_i32_attr, ::llvm::APFloat dv_f64_attr, ::llvm::StringRef dv_str_attr = "abc", bool dv_bool_attr = true, ::SomeI32Enum dv_enum_attr = ::SomeI32Enum::case5)

 // DEF-LABEL: DOp definitions
 // DEF: odsState.addAttribute(str_attrAttrName(odsState.name), odsBuilder.getStringAttr(str_attr));
 // DEF: odsState.addAttribute(dv_str_attrAttrName(odsState.name), odsBuilder.getStringAttr(dv_str_attr));

 // Test derived type attr.
 // ---
 def DerivedTypeAttrOp : NS_Op<"derived_type_attr_op", []> {
   let results = (outs AnyTensor:$output);
   DerivedTypeAttr element_dtype = DerivedTypeAttr<"return output().getType();">;
 }

 // DECL: class DerivedTypeAttrOp : public ::mlir::Op
 // DECL-SAME: DerivedAttributeOpInterface::Trait
 // DECL: static bool isDerivedAttribute
 // DEF: bool DerivedTypeAttrOp::isDerivedAttribute(::llvm::StringRef name) {
 // DEF:   if (name == "element_dtype") return true;
 // DEF:   return false;
 // DEF: }
 // DEF: DerivedTypeAttrOp::materializeDerivedAttributes

 // Test that only default valued attributes at the end of the arguments
 // list get default values in the builder signature
 // ---

 def EOp : NS_Op<"e_op", []> {
   let arguments = (ins
     I32Attr:$i32_attr,
     DefaultValuedAttr<I32Attr, "42">:$dv_i32_attr,
     F64Attr:$f64_attr,
     DefaultValuedAttr<F64Attr, "8.">:$dv_f64_attr,
     StrAttr:$str_attr,
     DefaultValuedStrAttr<StrAttr, "abc">:$dv_str_attr,
     BoolAttr:$bool_attr,
     DefaultValuedAttr<BoolAttr, "true">:$dv_bool_attr,
     SomeI32Enum:$enum_attr,
     DefaultValuedAttr<SomeI32Enum, "::SomeI32Enum::case5">:$dv_enum_attr
   );
 }

 // DECL-LABEL: EOp declarations
 // DECL: static void build({{.*}}, uint32_t i32_attr, uint32_t dv_i32_attr, ::llvm::APFloat f64_attr, ::llvm::APFloat dv_f64_attr, ::llvm::StringRef str_attr, ::llvm::StringRef dv_str_attr, bool bool_attr, bool dv_bool_attr, ::SomeI32Enum enum_attr, ::SomeI32Enum dv_enum_attr = ::SomeI32Enum::case5)


 // Test proper namespacing for AttrDef
 // ---

 def NamespaceOp : NS_Op<"namespace_op", []> {
   let arguments = (ins
       SomeAttrDef:$AttrDef
   );
 }
 // DECL: NamespaceOp
 // DECL: foobar::SomeAttrAttr AttrDef()


 // Test mixing operands and attributes in arbitrary order
 // ---

 def MixOperandsAndAttrs : NS_Op<"mix_operands_and_attrs", []> {
   let arguments = (ins F32Attr:$attr, F32:$operand, F32Attr:$otherAttr, F32:$otherArg);
 }

 def OpWithDefaultAndRegion : NS_Op<"default_with_region", []> {
   let arguments = (ins
           DefaultValuedAttr<BoolAttr, "true">:$dv_bool_attr
   );
   let regions = (region VariadicRegion<AnyRegion>:$region);
 }

 // We should not have a default attribute in this case.

 // DECL-LABEL: OpWithDefaultAndRegion declarations
 // DECL: static void build({{.*}}, bool dv_bool_attr, unsigned regionCount)

 def OpWithDefaultAndSuccessor : NS_Op<"default_with_succ", []> {
   let arguments = (ins
           DefaultValuedAttr<BoolAttr, "true">:$dv_bool_attr
   );
   let successors = (successor VariadicSuccessor<AnySuccessor>:$succ);
 }

 // We should not have a default attribute in this case.

 // DECL-LABEL: OpWithDefaultAndSuccessor declarations
 // DECL: static void build({{.*}}, bool dv_bool_attr, ::mlir::BlockRange succ)

 // DEF-LABEL: MixOperandsAndAttrs definitions
 // DEF-DAG: ::mlir::Value MixOperandsAndAttrs::operand()
 // DEF-DAG: ::mlir::Value MixOperandsAndAttrs::otherArg()
 // DEF-DAG: void MixOperandsAndAttrs::build(::mlir::OpBuilder &odsBuilder, ::mlir::OperationState &odsState, ::mlir::FloatAttr attr, ::mlir::Value operand, ::mlir::FloatAttr otherAttr, ::mlir::Value otherArg)
 // DEF-DAG: ::llvm::APFloat MixOperandsAndAttrs::attr()
 // DEF-DAG: ::llvm::APFloat MixOperandsAndAttrs::otherAttr()

 // Test unit attributes.
 // ---

 def UnitAttrOp : NS_Op<"unit_attr_op", []> {
   let arguments = (ins UnitAttr:$attr);
 }

 // DEF-LABEL: UnitAttrOp definitions
 // DEF: bool UnitAttrOp::attr() {
 // DEF:   return {{.*}} != nullptr

 // DEF: ::mlir::Attribute UnitAttrOp::removeAttrAttr() {
 // DEF-NEXT:   (*this)->removeAttr(attrAttrName());

 // DEF: build(::mlir::OpBuilder &odsBuilder, ::mlir::OperationState &odsState, /*optional*/::mlir::UnitAttr attr)


 // Test elementAttr field of TypedArrayAttr.
 // ---

 def SomeTypedArrayAttr : TypedArrayAttrBase<SomeAttr, "SomeAttr array">;

 // RECORD-LABEL: def SomeTypedArrayAttr
 // RECORD: Attr elementAttr = SomeAttr;

 def Test_Dialect_2 : Dialect {
   let name = "dialect_2";
 }
 def MyStruct : StructAttr<"MyStruct", Test_Dialect_2,
 [StructFieldAttr<"potatoes", I64ElementsAttr>]> {
   let summary = "A structure describing a number of potatoes.";
 }

 def StructAttrOp : NS_Op<"struct_attr_op", []> {
   let arguments = (ins
     MyStruct:$potatoes
   );
 }

 // DECL: dialect_2::MyStruct potatoes();
	// RUN: mlir-tblgen -gen-op-decls -I %S/../../include %s \| FileCheck %s --check-prefix=DECL
	// RUN: mlir-tblgen -gen-op-defs -I %S/../../include %s \| FileCheck %s --check-prefix=DEF
	// RUN: mlir-tblgen -print-records -I %S/../../include %s \| FileCheck %s --check-prefix=RECORD

	include "mlir/IR/OpBase.td"

	def Test_Dialect : Dialect {
	let name = "test";
	let cppNamespace = "foobar";
	}
	class NS_Op<string mnemonic, list<OpTrait> traits> :
	Op<Test_Dialect, mnemonic, traits>;

	def SomeAttr : Attr<CPred<"some-condition">, "some attribute kind"> {
	let storageType = "some-attr-kind";
	let returnType = "some-return-type";
	let convertFromStorage = "$_self.some-convert-from-storage()";
	let constBuilderCall = "some-const-builder-call($_builder, $0)";
	}

	def SomeAttrDef : AttrDef<Test_Dialect, "SomeAttr"> {
	}


	// Test required, optional, default-valued attributes
	// ---

	def AOp : NS_Op<"a_op", []> {
	let arguments = (ins
	SomeAttr:$aAttr,
	DefaultValuedAttr<SomeAttr, "4.2">:$bAttr,
	OptionalAttr<SomeAttr>:$cAttr
	);
	}

	// DECL-LABEL: AOp declarations

	// Test attribute name methods
	// ---

	// DECL: static ::llvm::ArrayRef<::llvm::StringRef> getAttributeNames()
	// DECL-NEXT: static ::llvm::StringRef attrNames[] =
	// DECL-SAME: {::llvm::StringRef("aAttr"), ::llvm::StringRef("bAttr"), ::llvm::StringRef("cAttr")};
	// DECL-NEXT: return ::llvm::makeArrayRef(attrNames);

	// DECL: ::mlir::StringAttr aAttrAttrName()
	// DECL-NEXT: return getAttributeNameForIndex(0);
	// DECL: ::mlir::StringAttr aAttrAttrName(::mlir::OperationName name)
	// DECL-NEXT: return getAttributeNameForIndex(name, 0);

	// DECL: ::mlir::StringAttr bAttrAttrName()
	// DECL-NEXT: return getAttributeNameForIndex(1);
	// DECL: ::mlir::StringAttr bAttrAttrName(::mlir::OperationName name)
	// DECL-NEXT: return getAttributeNameForIndex(name, 1);

	// DECL: ::mlir::StringAttr cAttrAttrName()
	// DECL-NEXT: return getAttributeNameForIndex(2);
	// DECL: ::mlir::StringAttr cAttrAttrName(::mlir::OperationName name)
	// DECL-NEXT: return getAttributeNameForIndex(name, 2);

	// DEF-LABEL: AOp definitions

	// Test verify method
	// ---

	// DEF: ::mlir::LogicalResult AOpAdaptor::verify
	// DEF: auto tblgen_aAttr = odsAttrs.get("aAttr");
	// DEF-NEXT: if (!tblgen_aAttr)
	// DEF-NEXT: return emitError(loc, "'test.a_op' op ""requires attribute 'aAttr'");
	// DEF: if (tblgen_aAttr && !((some-condition)))
	// DEF-NEXT: return emitError(loc, "'test.a_op' op ""attribute 'aAttr' failed to satisfy constraint: some attribute kind");
	// DEF: auto tblgen_bAttr = odsAttrs.get("bAttr");
	// DEF-NEXT: if (tblgen_bAttr && !((some-condition)))
	// DEF-NEXT: return emitError(loc, "'test.a_op' op ""attribute 'bAttr' failed to satisfy constraint: some attribute kind");
	// DEF: auto tblgen_cAttr = odsAttrs.get("cAttr");
	// DEF-NEXT: if (tblgen_cAttr && !((some-condition)))
	// DEF-NEXT: return emitError(loc, "'test.a_op' op ""attribute 'cAttr' failed to satisfy constraint: some attribute kind");

	// Test getter methods
	// ---

	// DEF: some-attr-kind AOp::aAttrAttr()
	// DEF-NEXT: (*this)->getAttr(aAttrAttrName()).cast<some-attr-kind>()
	// DEF: some-return-type AOp::aAttr() {
	// DEF-NEXT: auto attr = aAttrAttr()
	// DEF-NEXT: return attr.some-convert-from-storage();

	// DEF: some-attr-kind AOp::bAttrAttr()
	// DEF-NEXT: return (*this)->getAttr(bAttrAttrName()).dyn_cast_or_null<some-attr-kind>()
	// DEF: some-return-type AOp::bAttr() {
	// DEF-NEXT: auto attr = bAttrAttr();
	// DEF-NEXT: if (!attr)
	// DEF-NEXT: return some-const-builder-call(::mlir::Builder((*this)->getContext()), 4.2).some-convert-from-storage();
	// DEF-NEXT: return attr.some-convert-from-storage();

	// DEF: some-attr-kind AOp::cAttrAttr()
	// DEF-NEXT: return (*this)->getAttr(cAttrAttrName()).dyn_cast_or_null<some-attr-kind>()
	// DEF: ::llvm::Optional<some-return-type> AOp::cAttr() {
	// DEF-NEXT: auto attr = cAttrAttr()
	// DEF-NEXT: return attr ? ::llvm::Optional<some-return-type>(attr.some-convert-from-storage()) : (::llvm::None);

	// Test setter methods
	// ---

	// DEF: void AOp::aAttrAttr(some-attr-kind attr) {
	// DEF-NEXT: (*this)->setAttr(aAttrAttrName(), attr);
	// DEF: void AOp::bAttrAttr(some-attr-kind attr) {
	// DEF-NEXT: (*this)->setAttr(bAttrAttrName(), attr);
	// DEF: void AOp::cAttrAttr(some-attr-kind attr) {
	// DEF-NEXT: (*this)->setAttr(cAttrAttrName(), attr);

	// Test remove methods
	// ---

	// DEF: ::mlir::Attribute AOp::removeCAttrAttr() {
	// DEF-NEXT: return (*this)->removeAttr(cAttrAttrName());

	// Test build methods
	// ---

	// DEF: void AOp::build(
	// DEF: odsState.addAttribute(aAttrAttrName(odsState.name), aAttr);
	// DEF: odsState.addAttribute(bAttrAttrName(odsState.name), bAttr);
	// DEF: if (cAttr) {
	// DEF-NEXT: odsState.addAttribute(cAttrAttrName(odsState.name), cAttr);

	// DEF: void AOp::build(
	// DEF: some-return-type aAttr, some-return-type bAttr, /optional/some-attr-kind cAttr
	// DEF: odsState.addAttribute(aAttrAttrName(odsState.name), some-const-builder-call(odsBuilder, aAttr));

	// DEF: void AOp::build(
	// DEF: ::llvm::ArrayRef<::mlir::NamedAttribute> attributes
	// DEF: odsState.addAttributes(attributes);

	// Test the above but with prefix.

	def Test2_Dialect : Dialect {
	let name = "test2";
	let cppNamespace = "foobar2";
	let emitAccessorPrefix = kEmitAccessorPrefix_Prefixed;
	}
	def AgetOp : Op<Test2_Dialect, "a_get_op", []> {
	let arguments = (ins
	SomeAttr:$aAttr,
	DefaultValuedAttr<SomeAttr, "4.2">:$bAttr,
	OptionalAttr<SomeAttr>:$cAttr
	);
	}

	// DECL-LABEL: AgetOp declarations

	// Test attribute name methods
	// ---

	// DECL: static ::llvm::ArrayRef<::llvm::StringRef> getAttributeNames()
	// DECL-NEXT: static ::llvm::StringRef attrNames[] =
	// DECL-SAME: {::llvm::StringRef("aAttr"), ::llvm::StringRef("bAttr"), ::llvm::StringRef("cAttr")};
	// DECL-NEXT: return ::llvm::makeArrayRef(attrNames);

	// DECL: ::mlir::StringAttr getAAttrAttrName()
	// DECL-NEXT: return getAttributeNameForIndex(0);
	// DECL: ::mlir::StringAttr getAAttrAttrName(::mlir::OperationName name)
	// DECL-NEXT: return getAttributeNameForIndex(name, 0);

	// DECL: ::mlir::StringAttr getBAttrAttrName()
	// DECL-NEXT: return getAttributeNameForIndex(1);
	// DECL: ::mlir::StringAttr getBAttrAttrName(::mlir::OperationName name)
	// DECL-NEXT: return getAttributeNameForIndex(name, 1);

	// DECL: ::mlir::StringAttr getCAttrAttrName()
	// DECL-NEXT: return getAttributeNameForIndex(2);
	// DECL: ::mlir::StringAttr getCAttrAttrName(::mlir::OperationName name)
	// DECL-NEXT: return getAttributeNameForIndex(name, 2);

	// DEF-LABEL: AgetOp definitions

	// Test verify method
	// ---

	// DEF: ::mlir::LogicalResult AgetOpAdaptor::verify
	// DEF: auto tblgen_aAttr = odsAttrs.get("aAttr");
	// DEF-NEXT: if (!tblgen_aAttr)
	// DEF-NEXT. return emitError(loc, "'test2.a_get_op' op ""requires attribute 'aAttr'");
	// DEF: if (tblgen_aAttr && !((some-condition)))
	// DEF-NEXT: return emitError(loc, "'test2.a_get_op' op ""attribute 'aAttr' failed to satisfy constraint: some attribute kind");
	// DEF: auto tblgen_bAttr = odsAttrs.get("bAttr");
	// DEF-NEXT: if (tblgen_bAttr && !((some-condition)))
	// DEF-NEXT: return emitError(loc, "'test2.a_get_op' op ""attribute 'bAttr' failed to satisfy constraint: some attribute kind");
	// DEF: auto tblgen_cAttr = odsAttrs.get("cAttr");
	// DEF-NEXT: if (tblgen_cAttr && !((some-condition)))
	// DEF-NEXT: return emitError(loc, "'test2.a_get_op' op ""attribute 'cAttr' failed to satisfy constraint: some attribute kind");

	// Test getter methods
	// ---

	// DEF: some-attr-kind AgetOp::getAAttrAttr()
	// DEF-NEXT: (*this)->getAttr(getAAttrAttrName()).cast<some-attr-kind>()
	// DEF: some-return-type AgetOp::getAAttr() {
	// DEF-NEXT: auto attr = getAAttrAttr()
	// DEF-NEXT: return attr.some-convert-from-storage();

	// DEF: some-attr-kind AgetOp::getBAttrAttr()
	// DEF-NEXT: return (*this)->getAttr(getBAttrAttrName()).dyn_cast_or_null<some-attr-kind>()
	// DEF: some-return-type AgetOp::getBAttr() {
	// DEF-NEXT: auto attr = getBAttrAttr();
	// DEF-NEXT: if (!attr)
	// DEF-NEXT: return some-const-builder-call(::mlir::Builder((*this)->getContext()), 4.2).some-convert-from-storage();
	// DEF-NEXT: return attr.some-convert-from-storage();

	// DEF: some-attr-kind AgetOp::getCAttrAttr()
	// DEF-NEXT: return (*this)->getAttr(getCAttrAttrName()).dyn_cast_or_null<some-attr-kind>()
	// DEF: ::llvm::Optional<some-return-type> AgetOp::getCAttr() {
	// DEF-NEXT: auto attr = getCAttrAttr()
	// DEF-NEXT: return attr ? ::llvm::Optional<some-return-type>(attr.some-convert-from-storage()) : (::llvm::None);

	// Test setter methods
	// ---

	// DEF: void AgetOp::setAAttrAttr(some-attr-kind attr) {
	// DEF-NEXT: (*this)->setAttr(getAAttrAttrName(), attr);
	// DEF: void AgetOp::setBAttrAttr(some-attr-kind attr) {
	// DEF-NEXT: (*this)->setAttr(getBAttrAttrName(), attr);
	// DEF: void AgetOp::setCAttrAttr(some-attr-kind attr) {
	// DEF-NEXT: (*this)->setAttr(getCAttrAttrName(), attr);

	// Test remove methods
	// ---

	// DEF: ::mlir::Attribute AgetOp::removeCAttrAttr() {
	// DEF-NEXT: return (*this)->removeAttr(getCAttrAttrName());

	// Test build methods
	// ---

	// DEF: void AgetOp::build(
	// DEF: odsState.addAttribute(getAAttrAttrName(odsState.name), aAttr);
	// DEF: odsState.addAttribute(getBAttrAttrName(odsState.name), bAttr);
	// DEF: if (cAttr) {
	// DEF-NEXT: odsState.addAttribute(getCAttrAttrName(odsState.name), cAttr);

	// DEF: void AgetOp::build(
	// DEF: some-return-type aAttr, some-return-type bAttr, /optional/some-attr-kind cAttr
	// DEF: odsState.addAttribute(getAAttrAttrName(odsState.name), some-const-builder-call(odsBuilder, aAttr));

	// DEF: void AgetOp::build(
	// DEF: ::llvm::ArrayRef<::mlir::NamedAttribute> attributes
	// DEF: odsState.addAttributes(attributes);

	def SomeTypeAttr : TypeAttrBase<"SomeType", "some type attribute">;

	def BOp : NS_Op<"b_op", []> {
	let arguments = (ins
	AnyAttr:$any_attr,
	BoolAttr:$bool_attr,
	I32Attr:$i32_attr,
	I64Attr:$i64_attr,
	F32Attr:$f32_attr,
	F64Attr:$f64_attr,
	StrAttr:$str_attr,
	ElementsAttr:$elements_attr,
	FlatSymbolRefAttr:$function_attr,
	SomeTypeAttr:$some_type_attr,
	ArrayAttr:$array_attr,
	TypedArrayAttrBase<SomeAttr, "SomeAttr array">:$some_attr_array,
	TypeAttr:$type_attr
	);
	}


	// Test common attribute kinds' constraints
	// ---

	// DEF-LABEL: BOpAdaptor::verify
	// DEF: if (tblgen_any_attr && !((true)))
	// DEF: if (tblgen_bool_attr && !((tblgen_bool_attr.isa<::mlir::BoolAttr>())))
	// DEF: if (tblgen_i32_attr && !(((tblgen_i32_attr.isa<::mlir::IntegerAttr>())) && ((tblgen_i32_attr.cast<::mlir::IntegerAttr>().getType().isSignlessInteger(32)))))
	// DEF: if (tblgen_i64_attr && !(((tblgen_i64_attr.isa<::mlir::IntegerAttr>())) && ((tblgen_i64_attr.cast<::mlir::IntegerAttr>().getType().isSignlessInteger(64)))))
	// DEF: if (tblgen_f32_attr && !(((tblgen_f32_attr.isa<::mlir::FloatAttr>())) && ((tblgen_f32_attr.cast<::mlir::FloatAttr>().getType().isF32()))))
	// DEF: if (tblgen_f64_attr && !(((tblgen_f64_attr.isa<::mlir::FloatAttr>())) && ((tblgen_f64_attr.cast<::mlir::FloatAttr>().getType().isF64()))))
	// DEF: if (tblgen_str_attr && !((tblgen_str_attr.isa<::mlir::StringAttr>())))
	// DEF: if (tblgen_elements_attr && !((tblgen_elements_attr.isa<::mlir::ElementsAttr>())))
	// DEF: if (tblgen_function_attr && !((tblgen_function_attr.isa<::mlir::FlatSymbolRefAttr>())))
	// DEF: if (tblgen_some_type_attr && !(((tblgen_some_type_attr.isa<::mlir::TypeAttr>())) && ((tblgen_some_type_attr.cast<::mlir::TypeAttr>().getValue().isa<SomeType>()))))
	// DEF: if (tblgen_array_attr && !((tblgen_array_attr.isa<::mlir::ArrayAttr>())))
	// DEF: if (tblgen_some_attr_array && !(((tblgen_some_attr_array.isa<::mlir::ArrayAttr>())) && (::llvm::all_of(tblgen_some_attr_array.cast<::mlir::ArrayAttr>(), [&](::mlir::Attribute attr) { return (some-condition); }))))
	// DEF: if (tblgen_type_attr && !(((tblgen_type_attr.isa<::mlir::TypeAttr>())) && ((tblgen_type_attr.cast<::mlir::TypeAttr>().getValue().isa<::mlir::Type>()))))

	// Test common attribute kind getters' return types
	// ---

	// DEF: ::mlir::Attribute BOp::any_attr()
	// DEF: bool BOp::bool_attr()
	// DEF: uint32_t BOp::i32_attr()
	// DEF: uint64_t BOp::i64_attr()
	// DEF: ::llvm::APFloat BOp::f32_attr()
	// DEF: ::llvm::APFloat BOp::f64_attr()
	// DEF: ::llvm::StringRef BOp::str_attr()
	// DEF: ::mlir::ElementsAttr BOp::elements_attr()
	// DEF: ::llvm::StringRef BOp::function_attr()
	// DEF: SomeType BOp::some_type_attr()
	// DEF: ::mlir::ArrayAttr BOp::array_attr()
	// DEF: ::mlir::ArrayAttr BOp::some_attr_array()
	// DEF: ::mlir::Type BOp::type_attr()

	// Test building constant values for array attribute kinds
	// ---

	def COp : NS_Op<"c_op", []> {
	let arguments = (ins
	DefaultValuedAttr<I32ArrayAttr, "{1, 2}">:$i32_array_attr,
	DefaultValuedAttr<I64ArrayAttr, "{3, 4}">:$i64_array_attr,
	DefaultValuedAttr<F32ArrayAttr, "{5.f, 6.f}">:$f32_array_attr,
	DefaultValuedAttr<F64ArrayAttr, "{7., 8.}">:$f64_array_attr,
	DefaultValuedAttr<StrArrayAttr, "{\"a\", \"b\"}">:$str_array_attr
	);
	}

	// DEF-LABEL: COp definitions
	// DEF: ::mlir::Builder((*this)->getContext()).getI32ArrayAttr({1, 2})
	// DEF: ::mlir::Builder((*this)->getContext()).getI64ArrayAttr({3, 4})
	// DEF: ::mlir::Builder((*this)->getContext()).getF32ArrayAttr({5.f, 6.f})
	// DEF: ::mlir::Builder((*this)->getContext()).getF64ArrayAttr({7., 8.})
	// DEF: ::mlir::Builder((*this)->getContext()).getStrArrayAttr({"a", "b"})


	// Test builder method which takes unwrapped values for attributes
	// ---

	def I32Case5: I32EnumAttrCase<"case5", 5>;
	def I32Case10: I32EnumAttrCase<"case10", 10>;

	def SomeI32Enum: I32EnumAttr<
	"SomeI32Enum", "", [I32Case5, I32Case10]>;

	def DOp : NS_Op<"d_op", []> {
	let arguments = (ins
	I32Attr:$i32_attr,
	F64Attr:$f64_attr,
	StrAttr:$str_attr,
	BoolAttr:$bool_attr,
	SomeI32Enum:$enum_attr,
	DefaultValuedAttr<I32Attr, "42">:$dv_i32_attr,
	DefaultValuedAttr<F64Attr, "8.">:$dv_f64_attr,
	DefaultValuedStrAttr<StrAttr, "abc">:$dv_str_attr,
	DefaultValuedAttr<BoolAttr, "true">:$dv_bool_attr,
	DefaultValuedAttr<SomeI32Enum, "::SomeI32Enum::case5">:$dv_enum_attr
	);
	}

	// DECL-LABEL: DOp declarations
	// DECL: static void build({{.*}}, uint32_t i32_attr, ::llvm::APFloat f64_attr, ::llvm::StringRef str_attr, bool bool_attr, ::SomeI32Enum enum_attr, uint32_t dv_i32_attr, ::llvm::APFloat dv_f64_attr, ::llvm::StringRef dv_str_attr = "abc", bool dv_bool_attr = true, ::SomeI32Enum dv_enum_attr = ::SomeI32Enum::case5)

	// DEF-LABEL: DOp definitions
	// DEF: odsState.addAttribute(str_attrAttrName(odsState.name), odsBuilder.getStringAttr(str_attr));
	// DEF: odsState.addAttribute(dv_str_attrAttrName(odsState.name), odsBuilder.getStringAttr(dv_str_attr));

	// Test derived type attr.
	// ---
	def DerivedTypeAttrOp : NS_Op<"derived_type_attr_op", []> {
	let results = (outs AnyTensor:$output);
	DerivedTypeAttr element_dtype = DerivedTypeAttr<"return output().getType();">;
	}

	// DECL: class DerivedTypeAttrOp : public ::mlir::Op
	// DECL-SAME: DerivedAttributeOpInterface::Trait
	// DECL: static bool isDerivedAttribute
	// DEF: bool DerivedTypeAttrOp::isDerivedAttribute(::llvm::StringRef name) {
	// DEF: if (name == "element_dtype") return true;
	// DEF: return false;
	// DEF: }
	// DEF: DerivedTypeAttrOp::materializeDerivedAttributes

	// Test that only default valued attributes at the end of the arguments
	// list get default values in the builder signature
	// ---

	def EOp : NS_Op<"e_op", []> {
	let arguments = (ins
	I32Attr:$i32_attr,
	DefaultValuedAttr<I32Attr, "42">:$dv_i32_attr,
	F64Attr:$f64_attr,
	DefaultValuedAttr<F64Attr, "8.">:$dv_f64_attr,
	StrAttr:$str_attr,
	DefaultValuedStrAttr<StrAttr, "abc">:$dv_str_attr,
	BoolAttr:$bool_attr,
	DefaultValuedAttr<BoolAttr, "true">:$dv_bool_attr,
	SomeI32Enum:$enum_attr,
	DefaultValuedAttr<SomeI32Enum, "::SomeI32Enum::case5">:$dv_enum_attr
	);
	}

	// DECL-LABEL: EOp declarations
	// DECL: static void build({{.*}}, uint32_t i32_attr, uint32_t dv_i32_attr, ::llvm::APFloat f64_attr, ::llvm::APFloat dv_f64_attr, ::llvm::StringRef str_attr, ::llvm::StringRef dv_str_attr, bool bool_attr, bool dv_bool_attr, ::SomeI32Enum enum_attr, ::SomeI32Enum dv_enum_attr = ::SomeI32Enum::case5)


	// Test proper namespacing for AttrDef
	// ---

	def NamespaceOp : NS_Op<"namespace_op", []> {
	let arguments = (ins
	SomeAttrDef:$AttrDef
	);
	}
	// DECL: NamespaceOp
	// DECL: foobar::SomeAttrAttr AttrDef()


	// Test mixing operands and attributes in arbitrary order
	// ---

	def MixOperandsAndAttrs : NS_Op<"mix_operands_and_attrs", []> {
	let arguments = (ins F32Attr:$attr, F32:$operand, F32Attr:$otherAttr, F32:$otherArg);
	}

	def OpWithDefaultAndRegion : NS_Op<"default_with_region", []> {
	let arguments = (ins
	DefaultValuedAttr<BoolAttr, "true">:$dv_bool_attr
	);
	let regions = (region VariadicRegion<AnyRegion>:$region);
	}

	// We should not have a default attribute in this case.

	// DECL-LABEL: OpWithDefaultAndRegion declarations
	// DECL: static void build({{.*}}, bool dv_bool_attr, unsigned regionCount)

	def OpWithDefaultAndSuccessor : NS_Op<"default_with_succ", []> {
	let arguments = (ins
	DefaultValuedAttr<BoolAttr, "true">:$dv_bool_attr
	);
	let successors = (successor VariadicSuccessor<AnySuccessor>:$succ);
	}

	// We should not have a default attribute in this case.

	// DECL-LABEL: OpWithDefaultAndSuccessor declarations
	// DECL: static void build({{.*}}, bool dv_bool_attr, ::mlir::BlockRange succ)

	// DEF-LABEL: MixOperandsAndAttrs definitions
	// DEF-DAG: ::mlir::Value MixOperandsAndAttrs::operand()
	// DEF-DAG: ::mlir::Value MixOperandsAndAttrs::otherArg()
	// DEF-DAG: void MixOperandsAndAttrs::build(::mlir::OpBuilder &odsBuilder, ::mlir::OperationState &odsState, ::mlir::FloatAttr attr, ::mlir::Value operand, ::mlir::FloatAttr otherAttr, ::mlir::Value otherArg)
	// DEF-DAG: ::llvm::APFloat MixOperandsAndAttrs::attr()
	// DEF-DAG: ::llvm::APFloat MixOperandsAndAttrs::otherAttr()

	// Test unit attributes.
	// ---

	def UnitAttrOp : NS_Op<"unit_attr_op", []> {
	let arguments = (ins UnitAttr:$attr);
	}

	// DEF-LABEL: UnitAttrOp definitions
	// DEF: bool UnitAttrOp::attr() {
	// DEF: return {{.*}} != nullptr

	// DEF: ::mlir::Attribute UnitAttrOp::removeAttrAttr() {
	// DEF-NEXT: (*this)->removeAttr(attrAttrName());

	// DEF: build(::mlir::OpBuilder &odsBuilder, ::mlir::OperationState &odsState, /optional/::mlir::UnitAttr attr)


	// Test elementAttr field of TypedArrayAttr.
	// ---

	def SomeTypedArrayAttr : TypedArrayAttrBase<SomeAttr, "SomeAttr array">;

	// RECORD-LABEL: def SomeTypedArrayAttr
	// RECORD: Attr elementAttr = SomeAttr;

	def Test_Dialect_2 : Dialect {
	let name = "dialect_2";
	}
	def MyStruct : StructAttr<"MyStruct", Test_Dialect_2,
	[StructFieldAttr<"potatoes", I64ElementsAttr>]> {
	let summary = "A structure describing a number of potatoes.";
	}

	def StructAttrOp : NS_Op<"struct_attr_op", []> {
	let arguments = (ins
	MyStruct:$potatoes
	);
	}

	// DECL: dialect_2::MyStruct potatoes();