mlir/unittests/IR/InterfaceAttachmentTest.cpp - llvm-project - Git at Google

 //===- InterfaceAttachmentTest.cpp - Test attaching interfaces ------------===//
 //
 // Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
 // See https://llvm.org/LICENSE.txt for license information.
 // SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
 //
 //===----------------------------------------------------------------------===//
 //
 // This implements the tests for attaching interfaces to attributes and types
 // without having to specify them on the attribute or type class directly.
 //
 //===----------------------------------------------------------------------===//

 #include "mlir/IR/BuiltinAttributes.h"
 #include "mlir/IR/BuiltinDialect.h"
 #include "mlir/IR/BuiltinOps.h"
 #include "mlir/IR/BuiltinTypes.h"
 #include "gtest/gtest.h"

 #include "../../test/lib/Dialect/Test/TestAttributes.h"
 #include "../../test/lib/Dialect/Test/TestDialect.h"
 #include "../../test/lib/Dialect/Test/TestTypes.h"
 #include "mlir/IR/OwningOpRef.h"

 using namespace mlir;
 using namespace test;

 namespace {

 /// External interface model for the integer type. Only provides non-default
 /// methods.
 struct Model
     : public TestExternalTypeInterface::ExternalModel<Model, IntegerType> {
   unsigned getBitwidthPlusArg(Type type, unsigned arg) const {
     return type.getIntOrFloatBitWidth() + arg;
   }

   static unsigned staticGetSomeValuePlusArg(unsigned arg) { return 42 + arg; }
 };

 /// External interface model for the float type. Provides non-deafult and
 /// overrides default methods.
 struct OverridingModel
     : public TestExternalTypeInterface::ExternalModel<OverridingModel,
                                                       FloatType> {
   unsigned getBitwidthPlusArg(Type type, unsigned arg) const {
     return type.getIntOrFloatBitWidth() + arg;
   }

   static unsigned staticGetSomeValuePlusArg(unsigned arg) { return 42 + arg; }

   unsigned getBitwidthPlusDoubleArgument(Type type, unsigned arg) const {
     return 128;
   }

   static unsigned staticGetArgument(unsigned arg) { return 420; }
 };

 TEST(InterfaceAttachment, Type) {
   MLIRContext context;

   // Check that the type has no interface.
   IntegerType i8 = IntegerType::get(&context, 8);
   ASSERT_FALSE(i8.isa<TestExternalTypeInterface>());

   // Attach an interface and check that the type now has the interface.
   IntegerType::attachInterface<Model>(context);
   TestExternalTypeInterface iface = i8.dyn_cast<TestExternalTypeInterface>();
   ASSERT_TRUE(iface != nullptr);
   EXPECT_EQ(iface.getBitwidthPlusArg(10), 18u);
   EXPECT_EQ(iface.staticGetSomeValuePlusArg(0), 42u);
   EXPECT_EQ(iface.getBitwidthPlusDoubleArgument(2), 12u);
   EXPECT_EQ(iface.staticGetArgument(17), 17u);

   // Same, but with the default implementation overridden.
   FloatType flt = Float32Type::get(&context);
   ASSERT_FALSE(flt.isa<TestExternalTypeInterface>());
   Float32Type::attachInterface<OverridingModel>(context);
   iface = flt.dyn_cast<TestExternalTypeInterface>();
   ASSERT_TRUE(iface != nullptr);
   EXPECT_EQ(iface.getBitwidthPlusArg(10), 42u);
   EXPECT_EQ(iface.staticGetSomeValuePlusArg(10), 52u);
   EXPECT_EQ(iface.getBitwidthPlusDoubleArgument(3), 128u);
   EXPECT_EQ(iface.staticGetArgument(17), 420u);

   // Other contexts shouldn't have the attribute attached.
   MLIRContext other;
   IntegerType i8other = IntegerType::get(&other, 8);
   EXPECT_FALSE(i8other.isa<TestExternalTypeInterface>());
 }

 /// External interface model for the test type from the test dialect.
 struct TestTypeModel
     : public TestExternalTypeInterface::ExternalModel<TestTypeModel,
                                                       test::TestType> {
   unsigned getBitwidthPlusArg(Type type, unsigned arg) const { return arg; }

   static unsigned staticGetSomeValuePlusArg(unsigned arg) { return 10 + arg; }
 };

 TEST(InterfaceAttachment, TypeDelayedContextConstruct) {
   // Put the interface in the registry.
   DialectRegistry registry;
   registry.insert<test::TestDialect>();
   registry.addTypeInterface<test::TestDialect, test::TestType, TestTypeModel>();

   // Check that when a context is constructed with the given registry, the type
   // interface gets registered.
   MLIRContext context(registry);
   context.loadDialect<test::TestDialect>();
   test::TestType testType = test::TestType::get(&context);
   auto iface = testType.dyn_cast<TestExternalTypeInterface>();
   ASSERT_TRUE(iface != nullptr);
   EXPECT_EQ(iface.getBitwidthPlusArg(42), 42u);
   EXPECT_EQ(iface.staticGetSomeValuePlusArg(10), 20u);
 }

 TEST(InterfaceAttachment, TypeDelayedContextAppend) {
   // Put the interface in the registry.
   DialectRegistry registry;
   registry.insert<test::TestDialect>();
   registry.addTypeInterface<test::TestDialect, test::TestType, TestTypeModel>();

   // Check that when the registry gets appended to the context, the interface
   // becomes available for objects in loaded dialects.
   MLIRContext context;
   context.loadDialect<test::TestDialect>();
   test::TestType testType = test::TestType::get(&context);
   EXPECT_FALSE(testType.isa<TestExternalTypeInterface>());
   context.appendDialectRegistry(registry);
   EXPECT_TRUE(testType.isa<TestExternalTypeInterface>());
 }

 TEST(InterfaceAttachment, RepeatedRegistration) {
   DialectRegistry registry;
   registry.addTypeInterface<BuiltinDialect, IntegerType, Model>();
   MLIRContext context(registry);

   // Should't fail on repeated registration through the dialect registry.
   context.appendDialectRegistry(registry);
 }

 TEST(InterfaceAttachment, TypeBuiltinDelayed) {
   // Builtin dialect needs to registration or loading, but delayed interface
   // registration must still work.
   DialectRegistry registry;
   registry.addTypeInterface<BuiltinDialect, IntegerType, Model>();

   MLIRContext context(registry);
   IntegerType i16 = IntegerType::get(&context, 16);
   EXPECT_TRUE(i16.isa<TestExternalTypeInterface>());

   MLIRContext initiallyEmpty;
   IntegerType i32 = IntegerType::get(&initiallyEmpty, 32);
   EXPECT_FALSE(i32.isa<TestExternalTypeInterface>());
   initiallyEmpty.appendDialectRegistry(registry);
   EXPECT_TRUE(i32.isa<TestExternalTypeInterface>());
 }

 /// The interface provides a default implementation that expects
 /// ConcreteType::getWidth to exist, which is the case for IntegerType. So this
 /// just derives from the ExternalModel.
 struct TestExternalFallbackTypeIntegerModel
     : public TestExternalFallbackTypeInterface::ExternalModel<
           TestExternalFallbackTypeIntegerModel, IntegerType> {};

 /// The interface provides a default implementation that expects
 /// ConcreteType::getWidth to exist, which is *not* the case for VectorType. Use
 /// FallbackModel instead to override this and make sure the code still compiles
 /// because we never instantiate the ExternalModel class template with a
 /// template argument that would have led to compilation failures.
 struct TestExternalFallbackTypeVectorModel
     : public TestExternalFallbackTypeInterface::FallbackModel<
           TestExternalFallbackTypeVectorModel> {
   unsigned getBitwidth(Type type) const {
     IntegerType elementType = type.cast<VectorType>()
                                   .getElementType()
                                   .dyn_cast_or_null<IntegerType>();
     return elementType ? elementType.getWidth() : 0;
   }
 };

 TEST(InterfaceAttachment, Fallback) {
   MLIRContext context;

   // Just check that we can attach the interface.
   IntegerType i8 = IntegerType::get(&context, 8);
   ASSERT_FALSE(i8.isa<TestExternalFallbackTypeInterface>());
   IntegerType::attachInterface<TestExternalFallbackTypeIntegerModel>(context);
   ASSERT_TRUE(i8.isa<TestExternalFallbackTypeInterface>());

   // Call the method so it is guaranteed not to be instantiated.
   VectorType vec = VectorType::get({42}, i8);
   ASSERT_FALSE(vec.isa<TestExternalFallbackTypeInterface>());
   VectorType::attachInterface<TestExternalFallbackTypeVectorModel>(context);
   ASSERT_TRUE(vec.isa<TestExternalFallbackTypeInterface>());
   EXPECT_EQ(vec.cast<TestExternalFallbackTypeInterface>().getBitwidth(), 8u);
 }

 /// External model for attribute interfaces.
 struct TestExternalIntegerAttrModel
     : public TestExternalAttrInterface::ExternalModel<
           TestExternalIntegerAttrModel, IntegerAttr> {
   const Dialect *getDialectPtr(Attribute attr) const {
     return &attr.cast<IntegerAttr>().getDialect();
   }

   static int getSomeNumber() { return 42; }
 };

 TEST(InterfaceAttachment, Attribute) {
   MLIRContext context;

   // Attribute interfaces use the exact same mechanism as types, so just check
   // that the basics work for attributes.
   IntegerAttr attr = IntegerAttr::get(IntegerType::get(&context, 32), 42);
   ASSERT_FALSE(attr.isa<TestExternalAttrInterface>());
   IntegerAttr::attachInterface<TestExternalIntegerAttrModel>(context);
   auto iface = attr.dyn_cast<TestExternalAttrInterface>();
   ASSERT_TRUE(iface != nullptr);
   EXPECT_EQ(iface.getDialectPtr(), &attr.getDialect());
   EXPECT_EQ(iface.getSomeNumber(), 42);
 }

 /// External model for an interface attachable to a non-builtin attribute.
 struct TestExternalSimpleAAttrModel
     : public TestExternalAttrInterface::ExternalModel<
           TestExternalSimpleAAttrModel, test::SimpleAAttr> {
   const Dialect *getDialectPtr(Attribute attr) const {
     return &attr.getDialect();
   }

   static int getSomeNumber() { return 21; }
 };

 TEST(InterfaceAttachmentTest, AttributeDelayed) {
   // Attribute interfaces use the exact same mechanism as types, so just check
   // that the delayed registration work for attributes.
   DialectRegistry registry;
   registry.insert<test::TestDialect>();
   registry.addAttrInterface<test::TestDialect, test::SimpleAAttr,
                             TestExternalSimpleAAttrModel>();

   MLIRContext context(registry);
   context.loadDialect<test::TestDialect>();
   auto attr = test::SimpleAAttr::get(&context);
   EXPECT_TRUE(attr.isa<TestExternalAttrInterface>());

   MLIRContext initiallyEmpty;
   initiallyEmpty.loadDialect<test::TestDialect>();
   attr = test::SimpleAAttr::get(&initiallyEmpty);
   EXPECT_FALSE(attr.isa<TestExternalAttrInterface>());
   initiallyEmpty.appendDialectRegistry(registry);
   EXPECT_TRUE(attr.isa<TestExternalAttrInterface>());
 }

 /// External interface model for the module operation. Only provides non-default
 /// methods.
 struct TestExternalOpModel
     : public TestExternalOpInterface::ExternalModel<TestExternalOpModel,
                                                     ModuleOp> {
   unsigned getNameLengthPlusArg(Operation *op, unsigned arg) const {
     return op->getName().getStringRef().size() + arg;
   }

   static unsigned getNameLengthPlusArgTwice(unsigned arg) {
     return ModuleOp::getOperationName().size() + 2 * arg;
   }
 };

 /// External interface model for the func operation. Provides non-deafult and
 /// overrides default methods.
 struct TestExternalOpOverridingModel
     : public TestExternalOpInterface::FallbackModel<
           TestExternalOpOverridingModel> {
   unsigned getNameLengthPlusArg(Operation *op, unsigned arg) const {
     return op->getName().getStringRef().size() + arg;
   }

   static unsigned getNameLengthPlusArgTwice(unsigned arg) {
     return FuncOp::getOperationName().size() + 2 * arg;
   }

   unsigned getNameLengthTimesArg(Operation *op, unsigned arg) const {
     return 42;
   }

   static unsigned getNameLengthMinusArg(unsigned arg) { return 21; }
 };

 TEST(InterfaceAttachment, Operation) {
   MLIRContext context;

   // Initially, the operation doesn't have the interface.
   OwningOpRef<ModuleOp> moduleOp = ModuleOp::create(UnknownLoc::get(&context));
   ASSERT_FALSE(isa<TestExternalOpInterface>(moduleOp->getOperation()));

   // We can attach an external interface and now the operaiton has it.
   ModuleOp::attachInterface<TestExternalOpModel>(context);
   auto iface = dyn_cast<TestExternalOpInterface>(moduleOp->getOperation());
   ASSERT_TRUE(iface != nullptr);
   EXPECT_EQ(iface.getNameLengthPlusArg(10), 24u);
   EXPECT_EQ(iface.getNameLengthTimesArg(3), 42u);
   EXPECT_EQ(iface.getNameLengthPlusArgTwice(18), 50u);
   EXPECT_EQ(iface.getNameLengthMinusArg(5), 9u);

   // Default implementation can be overridden.
   OwningOpRef<FuncOp> funcOp =
       FuncOp::create(UnknownLoc::get(&context), "function",
                      FunctionType::get(&context, {}, {}));
   ASSERT_FALSE(isa<TestExternalOpInterface>(funcOp->getOperation()));
   FuncOp::attachInterface<TestExternalOpOverridingModel>(context);
   iface = dyn_cast<TestExternalOpInterface>(funcOp->getOperation());
   ASSERT_TRUE(iface != nullptr);
   EXPECT_EQ(iface.getNameLengthPlusArg(10), 22u);
   EXPECT_EQ(iface.getNameLengthTimesArg(0), 42u);
   EXPECT_EQ(iface.getNameLengthPlusArgTwice(8), 28u);
   EXPECT_EQ(iface.getNameLengthMinusArg(1000), 21u);

   // Another context doesn't have the interfaces registered.
   MLIRContext other;
   OwningOpRef<ModuleOp> otherModuleOp =
       ModuleOp::create(UnknownLoc::get(&other));
   ASSERT_FALSE(isa<TestExternalOpInterface>(otherModuleOp->getOperation()));
 }

 template <class ConcreteOp>
 struct TestExternalTestOpModel
     : public TestExternalOpInterface::ExternalModel<
           TestExternalTestOpModel<ConcreteOp>, ConcreteOp> {
   unsigned getNameLengthPlusArg(Operation *op, unsigned arg) const {
     return op->getName().getStringRef().size() + arg;
   }

   static unsigned getNameLengthPlusArgTwice(unsigned arg) {
     return ConcreteOp::getOperationName().size() + 2 * arg;
   }
 };

 TEST(InterfaceAttachment, OperationDelayedContextConstruct) {
   DialectRegistry registry;
   registry.insert<test::TestDialect>();
   registry.addOpInterface<ModuleOp, TestExternalOpModel>();
   registry.addOpInterface<test::OpJ, TestExternalTestOpModel<test::OpJ>>();
   registry.addOpInterface<test::OpH, TestExternalTestOpModel<test::OpH>>();

   // Construct the context directly from a registry. The interfaces are expected
   // to be readily available on operations.
   MLIRContext context(registry);
   context.loadDialect<test::TestDialect>();

   OwningOpRef<ModuleOp> module = ModuleOp::create(UnknownLoc::get(&context));
   OpBuilder builder(module->getBody(), module->getBody()->begin());
   auto opJ =
       builder.create<test::OpJ>(builder.getUnknownLoc(), builder.getI32Type());
   auto opH =
       builder.create<test::OpH>(builder.getUnknownLoc(), opJ.getResult());
   auto opI =
       builder.create<test::OpI>(builder.getUnknownLoc(), opJ.getResult());

   EXPECT_TRUE(isa<TestExternalOpInterface>(module->getOperation()));
   EXPECT_TRUE(isa<TestExternalOpInterface>(opJ.getOperation()));
   EXPECT_TRUE(isa<TestExternalOpInterface>(opH.getOperation()));
   EXPECT_FALSE(isa<TestExternalOpInterface>(opI.getOperation()));
 }

 TEST(InterfaceAttachment, OperationDelayedContextAppend) {
   DialectRegistry registry;
   registry.insert<test::TestDialect>();
   registry.addOpInterface<ModuleOp, TestExternalOpModel>();
   registry.addOpInterface<test::OpJ, TestExternalTestOpModel<test::OpJ>>();
   registry.addOpInterface<test::OpH, TestExternalTestOpModel<test::OpH>>();

   // Construct the context, create ops, and only then append the registry. The
   // interfaces are expected to be available after appending the registry.
   MLIRContext context;
   context.loadDialect<test::TestDialect>();

   OwningOpRef<ModuleOp> module = ModuleOp::create(UnknownLoc::get(&context));
   OpBuilder builder(module->getBody(), module->getBody()->begin());
   auto opJ =
       builder.create<test::OpJ>(builder.getUnknownLoc(), builder.getI32Type());
   auto opH =
       builder.create<test::OpH>(builder.getUnknownLoc(), opJ.getResult());
   auto opI =
       builder.create<test::OpI>(builder.getUnknownLoc(), opJ.getResult());

   EXPECT_FALSE(isa<TestExternalOpInterface>(module->getOperation()));
   EXPECT_FALSE(isa<TestExternalOpInterface>(opJ.getOperation()));
   EXPECT_FALSE(isa<TestExternalOpInterface>(opH.getOperation()));
   EXPECT_FALSE(isa<TestExternalOpInterface>(opI.getOperation()));

   context.appendDialectRegistry(registry);

   EXPECT_TRUE(isa<TestExternalOpInterface>(module->getOperation()));
   EXPECT_TRUE(isa<TestExternalOpInterface>(opJ.getOperation()));
   EXPECT_TRUE(isa<TestExternalOpInterface>(opH.getOperation()));
   EXPECT_FALSE(isa<TestExternalOpInterface>(opI.getOperation()));
 }

 } // end namespace
	//===- InterfaceAttachmentTest.cpp - Test attaching interfaces ------------===//
	//
	// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
	// See https://llvm.org/LICENSE.txt for license information.
	// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
	//
	//===----------------------------------------------------------------------===//
	//
	// This implements the tests for attaching interfaces to attributes and types
	// without having to specify them on the attribute or type class directly.
	//
	//===----------------------------------------------------------------------===//

	#include "mlir/IR/BuiltinAttributes.h"
	#include "mlir/IR/BuiltinDialect.h"
	#include "mlir/IR/BuiltinOps.h"
	#include "mlir/IR/BuiltinTypes.h"
	#include "gtest/gtest.h"

	#include "../../test/lib/Dialect/Test/TestAttributes.h"
	#include "../../test/lib/Dialect/Test/TestDialect.h"
	#include "../../test/lib/Dialect/Test/TestTypes.h"
	#include "mlir/IR/OwningOpRef.h"

	using namespace mlir;
	using namespace test;

	namespace {

	/// External interface model for the integer type. Only provides non-default
	/// methods.
	struct Model
	: public TestExternalTypeInterface::ExternalModel<Model, IntegerType> {
	unsigned getBitwidthPlusArg(Type type, unsigned arg) const {
	return type.getIntOrFloatBitWidth() + arg;
	}

	static unsigned staticGetSomeValuePlusArg(unsigned arg) { return 42 + arg; }
	};

	/// External interface model for the float type. Provides non-deafult and
	/// overrides default methods.
	struct OverridingModel
	: public TestExternalTypeInterface::ExternalModel<OverridingModel,
	FloatType> {
	unsigned getBitwidthPlusArg(Type type, unsigned arg) const {
	return type.getIntOrFloatBitWidth() + arg;
	}

	static unsigned staticGetSomeValuePlusArg(unsigned arg) { return 42 + arg; }

	unsigned getBitwidthPlusDoubleArgument(Type type, unsigned arg) const {
	return 128;
	}

	static unsigned staticGetArgument(unsigned arg) { return 420; }
	};

	TEST(InterfaceAttachment, Type) {
	MLIRContext context;

	// Check that the type has no interface.
	IntegerType i8 = IntegerType::get(&context, 8);
	ASSERT_FALSE(i8.isa<TestExternalTypeInterface>());

	// Attach an interface and check that the type now has the interface.
	IntegerType::attachInterface<Model>(context);
	TestExternalTypeInterface iface = i8.dyn_cast<TestExternalTypeInterface>();
	ASSERT_TRUE(iface != nullptr);
	EXPECT_EQ(iface.getBitwidthPlusArg(10), 18u);
	EXPECT_EQ(iface.staticGetSomeValuePlusArg(0), 42u);
	EXPECT_EQ(iface.getBitwidthPlusDoubleArgument(2), 12u);
	EXPECT_EQ(iface.staticGetArgument(17), 17u);

	// Same, but with the default implementation overridden.
	FloatType flt = Float32Type::get(&context);
	ASSERT_FALSE(flt.isa<TestExternalTypeInterface>());
	Float32Type::attachInterface<OverridingModel>(context);
	iface = flt.dyn_cast<TestExternalTypeInterface>();
	ASSERT_TRUE(iface != nullptr);
	EXPECT_EQ(iface.getBitwidthPlusArg(10), 42u);
	EXPECT_EQ(iface.staticGetSomeValuePlusArg(10), 52u);
	EXPECT_EQ(iface.getBitwidthPlusDoubleArgument(3), 128u);
	EXPECT_EQ(iface.staticGetArgument(17), 420u);

	// Other contexts shouldn't have the attribute attached.
	MLIRContext other;
	IntegerType i8other = IntegerType::get(&other, 8);
	EXPECT_FALSE(i8other.isa<TestExternalTypeInterface>());
	}

	/// External interface model for the test type from the test dialect.
	struct TestTypeModel
	: public TestExternalTypeInterface::ExternalModel<TestTypeModel,
	test::TestType> {
	unsigned getBitwidthPlusArg(Type type, unsigned arg) const { return arg; }

	static unsigned staticGetSomeValuePlusArg(unsigned arg) { return 10 + arg; }
	};

	TEST(InterfaceAttachment, TypeDelayedContextConstruct) {
	// Put the interface in the registry.
	DialectRegistry registry;
	registry.insert<test::TestDialect>();
	registry.addTypeInterface<test::TestDialect, test::TestType, TestTypeModel>();

	// Check that when a context is constructed with the given registry, the type
	// interface gets registered.
	MLIRContext context(registry);
	context.loadDialect<test::TestDialect>();
	test::TestType testType = test::TestType::get(&context);
	auto iface = testType.dyn_cast<TestExternalTypeInterface>();
	ASSERT_TRUE(iface != nullptr);
	EXPECT_EQ(iface.getBitwidthPlusArg(42), 42u);
	EXPECT_EQ(iface.staticGetSomeValuePlusArg(10), 20u);
	}

	TEST(InterfaceAttachment, TypeDelayedContextAppend) {
	// Put the interface in the registry.
	DialectRegistry registry;
	registry.insert<test::TestDialect>();
	registry.addTypeInterface<test::TestDialect, test::TestType, TestTypeModel>();

	// Check that when the registry gets appended to the context, the interface
	// becomes available for objects in loaded dialects.
	MLIRContext context;
	context.loadDialect<test::TestDialect>();
	test::TestType testType = test::TestType::get(&context);
	EXPECT_FALSE(testType.isa<TestExternalTypeInterface>());
	context.appendDialectRegistry(registry);
	EXPECT_TRUE(testType.isa<TestExternalTypeInterface>());
	}

	TEST(InterfaceAttachment, RepeatedRegistration) {
	DialectRegistry registry;
	registry.addTypeInterface<BuiltinDialect, IntegerType, Model>();
	MLIRContext context(registry);

	// Should't fail on repeated registration through the dialect registry.
	context.appendDialectRegistry(registry);
	}

	TEST(InterfaceAttachment, TypeBuiltinDelayed) {
	// Builtin dialect needs to registration or loading, but delayed interface
	// registration must still work.
	DialectRegistry registry;
	registry.addTypeInterface<BuiltinDialect, IntegerType, Model>();

	MLIRContext context(registry);
	IntegerType i16 = IntegerType::get(&context, 16);
	EXPECT_TRUE(i16.isa<TestExternalTypeInterface>());

	MLIRContext initiallyEmpty;
	IntegerType i32 = IntegerType::get(&initiallyEmpty, 32);
	EXPECT_FALSE(i32.isa<TestExternalTypeInterface>());
	initiallyEmpty.appendDialectRegistry(registry);
	EXPECT_TRUE(i32.isa<TestExternalTypeInterface>());
	}

	/// The interface provides a default implementation that expects
	/// ConcreteType::getWidth to exist, which is the case for IntegerType. So this
	/// just derives from the ExternalModel.
	struct TestExternalFallbackTypeIntegerModel
	: public TestExternalFallbackTypeInterface::ExternalModel<
	TestExternalFallbackTypeIntegerModel, IntegerType> {};

	/// The interface provides a default implementation that expects
	/// ConcreteType::getWidth to exist, which is not the case for VectorType. Use
	/// FallbackModel instead to override this and make sure the code still compiles
	/// because we never instantiate the ExternalModel class template with a
	/// template argument that would have led to compilation failures.
	struct TestExternalFallbackTypeVectorModel
	: public TestExternalFallbackTypeInterface::FallbackModel<
	TestExternalFallbackTypeVectorModel> {
	unsigned getBitwidth(Type type) const {
	IntegerType elementType = type.cast<VectorType>()
	.getElementType()
	.dyn_cast_or_null<IntegerType>();
	return elementType ? elementType.getWidth() : 0;
	}
	};

	TEST(InterfaceAttachment, Fallback) {
	MLIRContext context;

	// Just check that we can attach the interface.
	IntegerType i8 = IntegerType::get(&context, 8);
	ASSERT_FALSE(i8.isa<TestExternalFallbackTypeInterface>());
	IntegerType::attachInterface<TestExternalFallbackTypeIntegerModel>(context);
	ASSERT_TRUE(i8.isa<TestExternalFallbackTypeInterface>());

	// Call the method so it is guaranteed not to be instantiated.
	VectorType vec = VectorType::get({42}, i8);
	ASSERT_FALSE(vec.isa<TestExternalFallbackTypeInterface>());
	VectorType::attachInterface<TestExternalFallbackTypeVectorModel>(context);
	ASSERT_TRUE(vec.isa<TestExternalFallbackTypeInterface>());
	EXPECT_EQ(vec.cast<TestExternalFallbackTypeInterface>().getBitwidth(), 8u);
	}

	/// External model for attribute interfaces.
	struct TestExternalIntegerAttrModel
	: public TestExternalAttrInterface::ExternalModel<
	TestExternalIntegerAttrModel, IntegerAttr> {
	const Dialect *getDialectPtr(Attribute attr) const {
	return &attr.cast<IntegerAttr>().getDialect();
	}

	static int getSomeNumber() { return 42; }
	};

	TEST(InterfaceAttachment, Attribute) {
	MLIRContext context;

	// Attribute interfaces use the exact same mechanism as types, so just check
	// that the basics work for attributes.
	IntegerAttr attr = IntegerAttr::get(IntegerType::get(&context, 32), 42);
	ASSERT_FALSE(attr.isa<TestExternalAttrInterface>());
	IntegerAttr::attachInterface<TestExternalIntegerAttrModel>(context);
	auto iface = attr.dyn_cast<TestExternalAttrInterface>();
	ASSERT_TRUE(iface != nullptr);
	EXPECT_EQ(iface.getDialectPtr(), &attr.getDialect());
	EXPECT_EQ(iface.getSomeNumber(), 42);
	}

	/// External model for an interface attachable to a non-builtin attribute.
	struct TestExternalSimpleAAttrModel
	: public TestExternalAttrInterface::ExternalModel<
	TestExternalSimpleAAttrModel, test::SimpleAAttr> {
	const Dialect *getDialectPtr(Attribute attr) const {
	return &attr.getDialect();
	}

	static int getSomeNumber() { return 21; }
	};

	TEST(InterfaceAttachmentTest, AttributeDelayed) {
	// Attribute interfaces use the exact same mechanism as types, so just check
	// that the delayed registration work for attributes.
	DialectRegistry registry;
	registry.insert<test::TestDialect>();
	registry.addAttrInterface<test::TestDialect, test::SimpleAAttr,
	TestExternalSimpleAAttrModel>();

	MLIRContext context(registry);
	context.loadDialect<test::TestDialect>();
	auto attr = test::SimpleAAttr::get(&context);
	EXPECT_TRUE(attr.isa<TestExternalAttrInterface>());

	MLIRContext initiallyEmpty;
	initiallyEmpty.loadDialect<test::TestDialect>();
	attr = test::SimpleAAttr::get(&initiallyEmpty);
	EXPECT_FALSE(attr.isa<TestExternalAttrInterface>());
	initiallyEmpty.appendDialectRegistry(registry);
	EXPECT_TRUE(attr.isa<TestExternalAttrInterface>());
	}

	/// External interface model for the module operation. Only provides non-default
	/// methods.
	struct TestExternalOpModel
	: public TestExternalOpInterface::ExternalModel<TestExternalOpModel,
	ModuleOp> {
	unsigned getNameLengthPlusArg(Operation *op, unsigned arg) const {
	return op->getName().getStringRef().size() + arg;
	}

	static unsigned getNameLengthPlusArgTwice(unsigned arg) {
	return ModuleOp::getOperationName().size() + 2 * arg;
	}
	};

	/// External interface model for the func operation. Provides non-deafult and
	/// overrides default methods.
	struct TestExternalOpOverridingModel
	: public TestExternalOpInterface::FallbackModel<
	TestExternalOpOverridingModel> {
	unsigned getNameLengthPlusArg(Operation *op, unsigned arg) const {
	return op->getName().getStringRef().size() + arg;
	}

	static unsigned getNameLengthPlusArgTwice(unsigned arg) {
	return FuncOp::getOperationName().size() + 2 * arg;
	}

	unsigned getNameLengthTimesArg(Operation *op, unsigned arg) const {
	return 42;
	}

	static unsigned getNameLengthMinusArg(unsigned arg) { return 21; }
	};

	TEST(InterfaceAttachment, Operation) {
	MLIRContext context;

	// Initially, the operation doesn't have the interface.
	OwningOpRef<ModuleOp> moduleOp = ModuleOp::create(UnknownLoc::get(&context));
	ASSERT_FALSE(isa<TestExternalOpInterface>(moduleOp->getOperation()));

	// We can attach an external interface and now the operaiton has it.
	ModuleOp::attachInterface<TestExternalOpModel>(context);
	auto iface = dyn_cast<TestExternalOpInterface>(moduleOp->getOperation());
	ASSERT_TRUE(iface != nullptr);
	EXPECT_EQ(iface.getNameLengthPlusArg(10), 24u);
	EXPECT_EQ(iface.getNameLengthTimesArg(3), 42u);
	EXPECT_EQ(iface.getNameLengthPlusArgTwice(18), 50u);
	EXPECT_EQ(iface.getNameLengthMinusArg(5), 9u);

	// Default implementation can be overridden.
	OwningOpRef<FuncOp> funcOp =
	FuncOp::create(UnknownLoc::get(&context), "function",
	FunctionType::get(&context, {}, {}));
	ASSERT_FALSE(isa<TestExternalOpInterface>(funcOp->getOperation()));
	FuncOp::attachInterface<TestExternalOpOverridingModel>(context);
	iface = dyn_cast<TestExternalOpInterface>(funcOp->getOperation());
	ASSERT_TRUE(iface != nullptr);
	EXPECT_EQ(iface.getNameLengthPlusArg(10), 22u);
	EXPECT_EQ(iface.getNameLengthTimesArg(0), 42u);
	EXPECT_EQ(iface.getNameLengthPlusArgTwice(8), 28u);
	EXPECT_EQ(iface.getNameLengthMinusArg(1000), 21u);

	// Another context doesn't have the interfaces registered.
	MLIRContext other;
	OwningOpRef<ModuleOp> otherModuleOp =
	ModuleOp::create(UnknownLoc::get(&other));
	ASSERT_FALSE(isa<TestExternalOpInterface>(otherModuleOp->getOperation()));
	}

	template <class ConcreteOp>
	struct TestExternalTestOpModel
	: public TestExternalOpInterface::ExternalModel<
	TestExternalTestOpModel<ConcreteOp>, ConcreteOp> {
	unsigned getNameLengthPlusArg(Operation *op, unsigned arg) const {
	return op->getName().getStringRef().size() + arg;
	}

	static unsigned getNameLengthPlusArgTwice(unsigned arg) {
	return ConcreteOp::getOperationName().size() + 2 * arg;
	}
	};

	TEST(InterfaceAttachment, OperationDelayedContextConstruct) {
	DialectRegistry registry;
	registry.insert<test::TestDialect>();
	registry.addOpInterface<ModuleOp, TestExternalOpModel>();
	registry.addOpInterface<test::OpJ, TestExternalTestOpModel<test::OpJ>>();
	registry.addOpInterface<test::OpH, TestExternalTestOpModel<test::OpH>>();

	// Construct the context directly from a registry. The interfaces are expected
	// to be readily available on operations.
	MLIRContext context(registry);
	context.loadDialect<test::TestDialect>();

	OwningOpRef<ModuleOp> module = ModuleOp::create(UnknownLoc::get(&context));
	OpBuilder builder(module->getBody(), module->getBody()->begin());
	auto opJ =
	builder.create<test::OpJ>(builder.getUnknownLoc(), builder.getI32Type());
	auto opH =
	builder.create<test::OpH>(builder.getUnknownLoc(), opJ.getResult());
	auto opI =
	builder.create<test::OpI>(builder.getUnknownLoc(), opJ.getResult());

	EXPECT_TRUE(isa<TestExternalOpInterface>(module->getOperation()));
	EXPECT_TRUE(isa<TestExternalOpInterface>(opJ.getOperation()));
	EXPECT_TRUE(isa<TestExternalOpInterface>(opH.getOperation()));
	EXPECT_FALSE(isa<TestExternalOpInterface>(opI.getOperation()));
	}

	TEST(InterfaceAttachment, OperationDelayedContextAppend) {
	DialectRegistry registry;
	registry.insert<test::TestDialect>();
	registry.addOpInterface<ModuleOp, TestExternalOpModel>();
	registry.addOpInterface<test::OpJ, TestExternalTestOpModel<test::OpJ>>();
	registry.addOpInterface<test::OpH, TestExternalTestOpModel<test::OpH>>();

	// Construct the context, create ops, and only then append the registry. The
	// interfaces are expected to be available after appending the registry.
	MLIRContext context;
	context.loadDialect<test::TestDialect>();

	OwningOpRef<ModuleOp> module = ModuleOp::create(UnknownLoc::get(&context));
	OpBuilder builder(module->getBody(), module->getBody()->begin());
	auto opJ =
	builder.create<test::OpJ>(builder.getUnknownLoc(), builder.getI32Type());
	auto opH =
	builder.create<test::OpH>(builder.getUnknownLoc(), opJ.getResult());
	auto opI =
	builder.create<test::OpI>(builder.getUnknownLoc(), opJ.getResult());

	EXPECT_FALSE(isa<TestExternalOpInterface>(module->getOperation()));
	EXPECT_FALSE(isa<TestExternalOpInterface>(opJ.getOperation()));
	EXPECT_FALSE(isa<TestExternalOpInterface>(opH.getOperation()));
	EXPECT_FALSE(isa<TestExternalOpInterface>(opI.getOperation()));

	context.appendDialectRegistry(registry);

	EXPECT_TRUE(isa<TestExternalOpInterface>(module->getOperation()));
	EXPECT_TRUE(isa<TestExternalOpInterface>(opJ.getOperation()));
	EXPECT_TRUE(isa<TestExternalOpInterface>(opH.getOperation()));
	EXPECT_FALSE(isa<TestExternalOpInterface>(opI.getOperation()));
	}

	} // end namespace