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

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

 include "mlir/IR/OpBase.td"

 // DECL: #ifdef GET_ATTRDEF_CLASSES
 // DECL: #undef GET_ATTRDEF_CLASSES

 // DECL: namespace mlir {
 // DECL: class DialectAsmParser;
 // DECL: class DialectAsmPrinter;
 // DECL: } // namespace mlir

 // DEF: #ifdef GET_ATTRDEF_LIST
 // DEF: #undef GET_ATTRDEF_LIST
 // DEF: ::test::SimpleAAttr,
 // DEF: ::test::CompoundAAttr,
 // DEF: ::test::IndexAttr,
 // DEF: ::test::SingleParameterAttr

 // DEF-LABEL: ::mlir::OptionalParseResult generatedAttributeParser(
 // DEF-NEXT: ::mlir::AsmParser &parser,
 // DEF-NEXT: ::llvm::StringRef mnemonic, ::mlir::Type type,
 // DEF-NEXT: ::mlir::Attribute &value) {
 // DEF: if (mnemonic == ::test::CompoundAAttr::getMnemonic()) {
 // DEF-NEXT: value = ::test::CompoundAAttr::parse(parser, type);
 // DEF-NEXT: return ::mlir::success(!!value);
 // DEF-NEXT: }
 // DEF-NEXT: if (mnemonic == ::test::IndexAttr::getMnemonic()) {
 // DEF-NEXT:   value = ::test::IndexAttr::parse(parser, type);
 // DEF-NEXT:   return ::mlir::success(!!value);
 // DEF: return {};

 def Test_Dialect: Dialect {
 // DECL-NOT: TestDialect
 // DEF-NOT: TestDialect
     let name = "TestDialect";
     let cppNamespace = "::test";
 }

 class TestAttr<string name> : AttrDef<Test_Dialect, name> { }

 def A_SimpleAttrA : TestAttr<"SimpleA"> {
 // DECL: class SimpleAAttr : public ::mlir::Attribute
 }

 // A more complex parameterized type
 def B_CompoundAttrA : TestAttr<"CompoundA"> {
   let summary = "A more complex parameterized attribute";
   let description = "This attribute is to test a reasonably complex attribute";
   let mnemonic = "cmpnd_a";
   let parameters = (
       ins
       "int":$widthOfSomething,
       "::test::SimpleTypeA": $exampleTdType,
       APFloatParameter<"">: $apFloat,
       ArrayRefParameter<"int", "Matrix dimensions">:$dims,
       AttributeSelfTypeParameter<"">:$inner
   );

   let genVerifyDecl = 1;

 // DECL-LABEL: class CompoundAAttr : public ::mlir::Attribute
 // DECL: static CompoundAAttr getChecked(llvm::function_ref<::mlir::InFlightDiagnostic()> emitError, ::mlir::MLIRContext *context, int widthOfSomething, ::test::SimpleTypeA exampleTdType, ::llvm::APFloat apFloat, ::llvm::ArrayRef<int> dims, ::mlir::Type inner);
 // DECL: static ::mlir::LogicalResult verify(::llvm::function_ref<::mlir::InFlightDiagnostic()> emitError, int widthOfSomething, ::test::SimpleTypeA exampleTdType, ::llvm::APFloat apFloat, ::llvm::ArrayRef<int> dims, ::mlir::Type inner);
 // DECL: static constexpr ::llvm::StringLiteral getMnemonic() {
 // DECL:   return ::llvm::StringLiteral("cmpnd_a");
 // DECL: }
 // DECL: static ::mlir::Attribute parse(
 // DECL-SAME: ::mlir::AsmParser &parser, ::mlir::Type type);
 // DECL: void print(::mlir::AsmPrinter &printer) const;
 // DECL: int getWidthOfSomething() const;
 // DECL: ::test::SimpleTypeA getExampleTdType() const;
 // DECL: ::llvm::APFloat getApFloat() const;

 // Check that AttributeSelfTypeParameter is handled properly.
 // DEF-LABEL: struct CompoundAAttrStorage
 // DEF: CompoundAAttrStorage (
 // DEF-NEXT: : ::mlir::AttributeStorage(inner),

 // DEF: bool operator==(const KeyTy &tblgenKey) const {
 // DEF-NEXT: if (!(widthOfSomething == std::get<0>(tblgenKey)))
 // DEF-NEXT:   return false;
 // DEF-NEXT: if (!(exampleTdType == std::get<1>(tblgenKey)))
 // DEF-NEXT:   return false;
 // DEF-NEXT: if (!(apFloat.bitwiseIsEqual(std::get<2>(tblgenKey))))
 // DEF-NEXT:   return false;
 // DEF-NEXT: if (!(dims == std::get<3>(tblgenKey)))
 // DEF-NEXT:   return false;
 // DEF-NEXT: if (!(getType() == std::get<4>(tblgenKey)))
 // DEF-NEXT:   return false;
 // DEF-NEXT: return true;

 // DEF: static CompoundAAttrStorage *construct
 // DEF: return new (allocator.allocate<CompoundAAttrStorage>())
 // DEF-NEXT: CompoundAAttrStorage(widthOfSomething, exampleTdType, apFloat, dims, inner);

 // DEF: ::mlir::Type CompoundAAttr::getInner() const { return getImpl()->getType().cast<::mlir::Type>(); }
 }

 def C_IndexAttr : TestAttr<"Index"> {
     let mnemonic = "index";

     let parameters = (
       ins
       StringRefParameter<"Label for index">:$label
     );

 // DECL-LABEL: class IndexAttr : public ::mlir::Attribute
 // DECL: static constexpr ::llvm::StringLiteral getMnemonic() {
 // DECL:   return ::llvm::StringLiteral("index");
 // DECL: }
 // DECL: static ::mlir::Attribute parse(
 // DECL-SAME: ::mlir::AsmParser &parser, ::mlir::Type type);
 // DECL: void print(::mlir::AsmPrinter &printer) const;
 }

 def D_SingleParameterAttr : TestAttr<"SingleParameter"> {
   let parameters = (
     ins
     "int": $num
   );
 // DECL-LABEL: struct SingleParameterAttrStorage;
 // DECL-LABEL: class SingleParameterAttr
 // DECL-NEXT:                   detail::SingleParameterAttrStorage
 }

 // An attribute testing AttributeSelfTypeParameter.
 def E_AttrWithTypeBuilder : TestAttr<"AttrWithTypeBuilder"> {
   let mnemonic = "attr_with_type_builder";
   let parameters = (ins "::mlir::IntegerAttr":$attr);
   let typeBuilder = "$_attr.getType()";
 }

 // DEF-LABEL: struct AttrWithTypeBuilderAttrStorage
 // DEF: AttrWithTypeBuilderAttrStorage (::mlir::IntegerAttr attr)
 // DEF-NEXT: : ::mlir::AttributeStorage(attr.getType()), attr(attr)

 def F_ParamWithAccessorTypeAttr : TestAttr<"ParamWithAccessorType"> {
   let parameters = (ins AttrParameter<"std::string", "", "StringRef">:$param);
 }

 // DECL-LABEL: class ParamWithAccessorTypeAttr
 // DECL: StringRef getParam()
 // DEF: ParamWithAccessorTypeAttrStorage
 // DEF-NEXT: ParamWithAccessorTypeAttrStorage (std::string param)
 // DEF: StringRef ParamWithAccessorTypeAttr::getParam()
	// RUN: mlir-tblgen -gen-attrdef-decls -I %S/../../include %s \| FileCheck %s --check-prefix=DECL
	// RUN: mlir-tblgen -gen-attrdef-defs -I %S/../../include %s \| FileCheck %s --check-prefix=DEF

	include "mlir/IR/OpBase.td"

	// DECL: #ifdef GET_ATTRDEF_CLASSES
	// DECL: #undef GET_ATTRDEF_CLASSES

	// DECL: namespace mlir {
	// DECL: class DialectAsmParser;
	// DECL: class DialectAsmPrinter;
	// DECL: } // namespace mlir

	// DEF: #ifdef GET_ATTRDEF_LIST
	// DEF: #undef GET_ATTRDEF_LIST
	// DEF: ::test::SimpleAAttr,
	// DEF: ::test::CompoundAAttr,
	// DEF: ::test::IndexAttr,
	// DEF: ::test::SingleParameterAttr

	// DEF-LABEL: ::mlir::OptionalParseResult generatedAttributeParser(
	// DEF-NEXT: ::mlir::AsmParser &parser,
	// DEF-NEXT: ::llvm::StringRef mnemonic, ::mlir::Type type,
	// DEF-NEXT: ::mlir::Attribute &value) {
	// DEF: if (mnemonic == ::test::CompoundAAttr::getMnemonic()) {
	// DEF-NEXT: value = ::test::CompoundAAttr::parse(parser, type);
	// DEF-NEXT: return ::mlir::success(!!value);
	// DEF-NEXT: }
	// DEF-NEXT: if (mnemonic == ::test::IndexAttr::getMnemonic()) {
	// DEF-NEXT: value = ::test::IndexAttr::parse(parser, type);
	// DEF-NEXT: return ::mlir::success(!!value);
	// DEF: return {};

	def Test_Dialect: Dialect {
	// DECL-NOT: TestDialect
	// DEF-NOT: TestDialect
	let name = "TestDialect";
	let cppNamespace = "::test";
	}

	class TestAttr<string name> : AttrDef<Test_Dialect, name> { }

	def A_SimpleAttrA : TestAttr<"SimpleA"> {
	// DECL: class SimpleAAttr : public ::mlir::Attribute
	}

	// A more complex parameterized type
	def B_CompoundAttrA : TestAttr<"CompoundA"> {
	let summary = "A more complex parameterized attribute";
	let description = "This attribute is to test a reasonably complex attribute";
	let mnemonic = "cmpnd_a";
	let parameters = (
	ins
	"int":$widthOfSomething,
	"::test::SimpleTypeA": $exampleTdType,
	APFloatParameter<"">: $apFloat,
	ArrayRefParameter<"int", "Matrix dimensions">:$dims,
	AttributeSelfTypeParameter<"">:$inner
	);

	let genVerifyDecl = 1;

	// DECL-LABEL: class CompoundAAttr : public ::mlir::Attribute
	// DECL: static CompoundAAttr getChecked(llvm::function_ref<::mlir::InFlightDiagnostic()> emitError, ::mlir::MLIRContext *context, int widthOfSomething, ::test::SimpleTypeA exampleTdType, ::llvm::APFloat apFloat, ::llvm::ArrayRef<int> dims, ::mlir::Type inner);
	// DECL: static ::mlir::LogicalResult verify(::llvm::function_ref<::mlir::InFlightDiagnostic()> emitError, int widthOfSomething, ::test::SimpleTypeA exampleTdType, ::llvm::APFloat apFloat, ::llvm::ArrayRef<int> dims, ::mlir::Type inner);
	// DECL: static constexpr ::llvm::StringLiteral getMnemonic() {
	// DECL: return ::llvm::StringLiteral("cmpnd_a");
	// DECL: }
	// DECL: static ::mlir::Attribute parse(
	// DECL-SAME: ::mlir::AsmParser &parser, ::mlir::Type type);
	// DECL: void print(::mlir::AsmPrinter &printer) const;
	// DECL: int getWidthOfSomething() const;
	// DECL: ::test::SimpleTypeA getExampleTdType() const;
	// DECL: ::llvm::APFloat getApFloat() const;

	// Check that AttributeSelfTypeParameter is handled properly.
	// DEF-LABEL: struct CompoundAAttrStorage
	// DEF: CompoundAAttrStorage (
	// DEF-NEXT: : ::mlir::AttributeStorage(inner),

	// DEF: bool operator==(const KeyTy &tblgenKey) const {
	// DEF-NEXT: if (!(widthOfSomething == std::get<0>(tblgenKey)))
	// DEF-NEXT: return false;
	// DEF-NEXT: if (!(exampleTdType == std::get<1>(tblgenKey)))
	// DEF-NEXT: return false;
	// DEF-NEXT: if (!(apFloat.bitwiseIsEqual(std::get<2>(tblgenKey))))
	// DEF-NEXT: return false;
	// DEF-NEXT: if (!(dims == std::get<3>(tblgenKey)))
	// DEF-NEXT: return false;
	// DEF-NEXT: if (!(getType() == std::get<4>(tblgenKey)))
	// DEF-NEXT: return false;
	// DEF-NEXT: return true;

	// DEF: static CompoundAAttrStorage *construct
	// DEF: return new (allocator.allocate<CompoundAAttrStorage>())
	// DEF-NEXT: CompoundAAttrStorage(widthOfSomething, exampleTdType, apFloat, dims, inner);

	// DEF: ::mlir::Type CompoundAAttr::getInner() const { return getImpl()->getType().cast<::mlir::Type>(); }
	}

	def C_IndexAttr : TestAttr<"Index"> {
	let mnemonic = "index";

	let parameters = (
	ins
	StringRefParameter<"Label for index">:$label
	);

	// DECL-LABEL: class IndexAttr : public ::mlir::Attribute
	// DECL: static constexpr ::llvm::StringLiteral getMnemonic() {
	// DECL: return ::llvm::StringLiteral("index");
	// DECL: }
	// DECL: static ::mlir::Attribute parse(
	// DECL-SAME: ::mlir::AsmParser &parser, ::mlir::Type type);
	// DECL: void print(::mlir::AsmPrinter &printer) const;
	}

	def D_SingleParameterAttr : TestAttr<"SingleParameter"> {
	let parameters = (
	ins
	"int": $num
	);
	// DECL-LABEL: struct SingleParameterAttrStorage;
	// DECL-LABEL: class SingleParameterAttr
	// DECL-NEXT: detail::SingleParameterAttrStorage
	}

	// An attribute testing AttributeSelfTypeParameter.
	def E_AttrWithTypeBuilder : TestAttr<"AttrWithTypeBuilder"> {
	let mnemonic = "attr_with_type_builder";
	let parameters = (ins "::mlir::IntegerAttr":$attr);
	let typeBuilder = "$_attr.getType()";
	}

	// DEF-LABEL: struct AttrWithTypeBuilderAttrStorage
	// DEF: AttrWithTypeBuilderAttrStorage (::mlir::IntegerAttr attr)
	// DEF-NEXT: : ::mlir::AttributeStorage(attr.getType()), attr(attr)

	def F_ParamWithAccessorTypeAttr : TestAttr<"ParamWithAccessorType"> {
	let parameters = (ins AttrParameter<"std::string", "", "StringRef">:$param);
	}

	// DECL-LABEL: class ParamWithAccessorTypeAttr
	// DECL: StringRef getParam()
	// DEF: ParamWithAccessorTypeAttrStorage
	// DEF-NEXT: ParamWithAccessorTypeAttrStorage (std::string param)
	// DEF: StringRef ParamWithAccessorTypeAttr::getParam()