mlir/unittests/TableGen/OpBuildGen.cpp - llvm-project - Git at Google

 //===- OpBuildGen.cpp - TableGen OpBuildGen Tests -------------------------===//
 //
 // 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
 //
 //===----------------------------------------------------------------------===//
 //
 // Test TableGen generated build() methods on Operations.
 //
 //===----------------------------------------------------------------------===//

 #include "TestDialect.h"
 #include "mlir/IR/Attributes.h"
 #include "mlir/IR/Builders.h"
 #include "mlir/IR/BuiltinTypes.h"
 #include "mlir/IR/Dialect.h"
 #include "gmock/gmock.h"
 #include <vector>

 namespace mlir {

 //===----------------------------------------------------------------------===//
 // Test Fixture
 //===----------------------------------------------------------------------===//

 static MLIRContext &getContext() {
   static MLIRContext ctx;
   ctx.getOrLoadDialect<test::TestDialect>();
   return ctx;
 }
 /// Test fixture for providing basic utilities for testing.
 class OpBuildGenTest : public ::testing::Test {
 protected:
   OpBuildGenTest()
       : ctx(getContext()), builder(&ctx), loc(builder.getUnknownLoc()),
         i32Ty(builder.getI32Type()), f32Ty(builder.getF32Type()),
         cstI32(builder.create<test::TableGenConstant>(loc, i32Ty)),
         cstF32(builder.create<test::TableGenConstant>(loc, f32Ty)),
         noAttrs(), attrStorage{builder.getNamedAttr("attr0",
                                                     builder.getBoolAttr(true)),
                                builder.getNamedAttr(
                                    "attr1", builder.getI32IntegerAttr(33))},
         attrs(attrStorage) {}

   // Verify that `op` has the given set of result types, operands, and
   // attributes.
   template <typename OpTy>
   void verifyOp(OpTy &&concreteOp, std::vector<Type> resultTypes,
                 std::vector<Value> operands,
                 std::vector<NamedAttribute> attrs) {
     ASSERT_NE(concreteOp, nullptr);
     Operation *op = concreteOp.getOperation();

     EXPECT_EQ(op->getNumResults(), resultTypes.size());
     for (unsigned idx : llvm::seq(0U, op->getNumResults()))
       EXPECT_EQ(op->getResult(idx).getType(), resultTypes[idx]);

     EXPECT_EQ(op->getNumOperands(), operands.size());
     for (unsigned idx : llvm::seq(0U, op->getNumOperands()))
       EXPECT_EQ(op->getOperand(idx), operands[idx]);

     EXPECT_EQ(op->getAttrs().size(), attrs.size());
     for (unsigned idx : llvm::seq<unsigned>(0U, attrs.size()))
       EXPECT_EQ(op->getAttr(attrs[idx].getName().strref()),
                 attrs[idx].getValue());

     concreteOp.erase();
   }

   // Helper method to test ops with inferred result types and single variadic
   // input.
   template <typename OpTy>
   void testSingleVariadicInputInferredType() {
     // Test separate arg, separate param build method.
     auto op = builder.create<OpTy>(loc, i32Ty, ValueRange{*cstI32, *cstI32});
     verifyOp(std::move(op), {i32Ty}, {*cstI32, *cstI32}, noAttrs);

     // Test collective params build method.
     op =
         builder.create<OpTy>(loc, TypeRange{i32Ty}, ValueRange{*cstI32, *cstI32});
     verifyOp(std::move(op), {i32Ty}, {*cstI32, *cstI32}, noAttrs);

     // Test build method with no result types, default value of attributes.
     op = builder.create<OpTy>(loc, ValueRange{*cstI32, *cstI32});
     verifyOp(std::move(op), {i32Ty}, {*cstI32, *cstI32}, noAttrs);

     // Test build method with no result types and supplied attributes.
     op = builder.create<OpTy>(loc, ValueRange{*cstI32, *cstI32}, attrs);
     verifyOp(std::move(op), {i32Ty}, {*cstI32, *cstI32}, attrs);
   }

 protected:
   MLIRContext &ctx;
   OpBuilder builder;
   Location loc;
   Type i32Ty;
   Type f32Ty;
   OwningOpRef<test::TableGenConstant> cstI32;
   OwningOpRef<test::TableGenConstant> cstF32;

   ArrayRef<NamedAttribute> noAttrs;
   std::vector<NamedAttribute> attrStorage;
   ArrayRef<NamedAttribute> attrs;
 };

 /// Test basic build methods.
 TEST_F(OpBuildGenTest, BasicBuildMethods) {
   // Test separate args, separate results build method.
   auto op = builder.create<test::TableGenBuildOp0>(loc, i32Ty, *cstI32);
   verifyOp(op, {i32Ty}, {*cstI32}, noAttrs);

   // Test separate args, collective results build method.
   op = builder.create<test::TableGenBuildOp0>(loc, TypeRange{i32Ty}, *cstI32);
   verifyOp(op, {i32Ty}, {*cstI32}, noAttrs);

   // Test collective args, collective params build method.
   op = builder.create<test::TableGenBuildOp0>(loc, TypeRange{i32Ty},
                                               ValueRange{*cstI32});
   verifyOp(op, {i32Ty}, {*cstI32}, noAttrs);

   // Test collective args, collective results, non-empty attributes
   op = builder.create<test::TableGenBuildOp0>(loc, TypeRange{i32Ty},
                                               ValueRange{*cstI32}, attrs);
   verifyOp(op, {i32Ty}, {*cstI32}, attrs);
 }

 /// The following 3 tests exercise build methods generated for operations
 /// with a combination of:
 ///
 /// single variadic arg x
 /// {single variadic result, non-variadic result, multiple variadic results}
 ///
 /// Specifically to test that that ODS framework does not generate ambiguous
 /// build() methods that fail to compile.

 /// Test build methods for an Op with a single varadic arg and a single
 /// variadic result.
 TEST_F(OpBuildGenTest, BuildMethodsSingleVariadicArgAndResult) {
   // Test collective args, collective results method, building a unary op.
   auto op = builder.create<test::TableGenBuildOp1>(loc, TypeRange{i32Ty},
                                                    ValueRange{*cstI32});
   verifyOp(std::move(op), {i32Ty}, {*cstI32}, noAttrs);

   // Test collective args, collective results method, building a unary op with
   // named attributes.
   op = builder.create<test::TableGenBuildOp1>(loc, TypeRange{i32Ty},
                                               ValueRange{*cstI32}, attrs);
   verifyOp(std::move(op), {i32Ty}, {*cstI32}, attrs);

   // Test collective args, collective results method, building a binary op.
   op = builder.create<test::TableGenBuildOp1>(loc, TypeRange{i32Ty, f32Ty},
                                               ValueRange{*cstI32, *cstF32});
   verifyOp(std::move(op), {i32Ty, f32Ty}, {*cstI32, *cstF32}, noAttrs);

   // Test collective args, collective results method, building a binary op with
   // named attributes.
   op = builder.create<test::TableGenBuildOp1>(
       loc, TypeRange{i32Ty, f32Ty}, ValueRange{*cstI32, *cstF32}, attrs);
   verifyOp(std::move(op), {i32Ty, f32Ty}, {*cstI32, *cstF32}, attrs);
 }

 /// Test build methods for an Op with a single varadic arg and a non-variadic
 /// result.
 TEST_F(OpBuildGenTest, BuildMethodsSingleVariadicArgNonVariadicResults) {
   // Test separate arg, separate param build method.
   auto op =
       builder.create<test::TableGenBuildOp1>(loc, i32Ty, ValueRange{*cstI32});
   verifyOp(std::move(op), {i32Ty}, {*cstI32}, noAttrs);

   // Test collective params build method, no attributes.
   op = builder.create<test::TableGenBuildOp1>(loc, TypeRange{i32Ty},
                                               ValueRange{*cstI32});
   verifyOp(std::move(op), {i32Ty}, {*cstI32}, noAttrs);

   // Test collective params build method no attributes, 2 inputs.
   op = builder.create<test::TableGenBuildOp1>(loc, TypeRange{i32Ty},
                                               ValueRange{*cstI32, *cstF32});
   verifyOp(std::move(op), {i32Ty}, {*cstI32, *cstF32}, noAttrs);

   // Test collective params build method, non-empty attributes.
   op = builder.create<test::TableGenBuildOp1>(
       loc, TypeRange{i32Ty}, ValueRange{*cstI32, *cstF32}, attrs);
   verifyOp(std::move(op), {i32Ty}, {*cstI32, *cstF32}, attrs);
 }

 /// Test build methods for an Op with a single varadic arg and multiple variadic
 /// result.
 TEST_F(OpBuildGenTest,
        BuildMethodsSingleVariadicArgAndMultipleVariadicResults) {
   // Test separate arg, separate param build method.
   auto op = builder.create<test::TableGenBuildOp3>(
       loc, TypeRange{i32Ty}, TypeRange{f32Ty}, ValueRange{*cstI32});
   verifyOp(std::move(op), {i32Ty, f32Ty}, {*cstI32}, noAttrs);

   // Test collective params build method, no attributes.
   op = builder.create<test::TableGenBuildOp3>(loc, TypeRange{i32Ty, f32Ty},
                                               ValueRange{*cstI32});
   verifyOp(std::move(op), {i32Ty, f32Ty}, {*cstI32}, noAttrs);

   // Test collective params build method, with attributes.
   op = builder.create<test::TableGenBuildOp3>(loc, TypeRange{i32Ty, f32Ty},
                                               ValueRange{*cstI32}, attrs);
   verifyOp(std::move(op), {i32Ty, f32Ty}, {*cstI32}, attrs);
 }

 // The next 2 tests test supression of ambiguous build methods for ops that
 // have a single variadic input, and single non-variadic result, and which
 // support the SameOperandsAndResultType trait and and optionally the
 // InferOpTypeInterface interface. For such ops, the ODS framework generates
 // build methods with no result types as they are inferred from the input types.
 TEST_F(OpBuildGenTest, BuildMethodsSameOperandsAndResultTypeSuppression) {
   testSingleVariadicInputInferredType<test::TableGenBuildOp4>();
 }

 TEST_F(
     OpBuildGenTest,
     BuildMethodsSameOperandsAndResultTypeAndInferOpTypeInterfaceSuppression) {
   testSingleVariadicInputInferredType<test::TableGenBuildOp5>();
 }

 } // namespace mlir
	//===- OpBuildGen.cpp - TableGen OpBuildGen Tests -------------------------===//
	//
	// 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
	//
	//===----------------------------------------------------------------------===//
	//
	// Test TableGen generated build() methods on Operations.
	//
	//===----------------------------------------------------------------------===//

	#include "TestDialect.h"
	#include "mlir/IR/Attributes.h"
	#include "mlir/IR/Builders.h"
	#include "mlir/IR/BuiltinTypes.h"
	#include "mlir/IR/Dialect.h"
	#include "gmock/gmock.h"
	#include <vector>

	namespace mlir {

	//===----------------------------------------------------------------------===//
	// Test Fixture
	//===----------------------------------------------------------------------===//

	static MLIRContext &getContext() {
	static MLIRContext ctx;
	ctx.getOrLoadDialect<test::TestDialect>();
	return ctx;
	}
	/// Test fixture for providing basic utilities for testing.
	class OpBuildGenTest : public ::testing::Test {
	protected:
	OpBuildGenTest()
	: ctx(getContext()), builder(&ctx), loc(builder.getUnknownLoc()),
	i32Ty(builder.getI32Type()), f32Ty(builder.getF32Type()),
	cstI32(builder.create<test::TableGenConstant>(loc, i32Ty)),
	cstF32(builder.create<test::TableGenConstant>(loc, f32Ty)),
	noAttrs(), attrStorage{builder.getNamedAttr("attr0",
	builder.getBoolAttr(true)),
	builder.getNamedAttr(
	"attr1", builder.getI32IntegerAttr(33))},
	attrs(attrStorage) {}

	// Verify that `op` has the given set of result types, operands, and
	// attributes.
	template <typename OpTy>
	void verifyOp(OpTy &&concreteOp, std::vector<Type> resultTypes,
	std::vector<Value> operands,
	std::vector<NamedAttribute> attrs) {
	ASSERT_NE(concreteOp, nullptr);
	Operation *op = concreteOp.getOperation();

	EXPECT_EQ(op->getNumResults(), resultTypes.size());
	for (unsigned idx : llvm::seq(0U, op->getNumResults()))
	EXPECT_EQ(op->getResult(idx).getType(), resultTypes[idx]);

	EXPECT_EQ(op->getNumOperands(), operands.size());
	for (unsigned idx : llvm::seq(0U, op->getNumOperands()))
	EXPECT_EQ(op->getOperand(idx), operands[idx]);

	EXPECT_EQ(op->getAttrs().size(), attrs.size());
	for (unsigned idx : llvm::seq<unsigned>(0U, attrs.size()))
	EXPECT_EQ(op->getAttr(attrs[idx].getName().strref()),
	attrs[idx].getValue());

	concreteOp.erase();
	}

	// Helper method to test ops with inferred result types and single variadic
	// input.
	template <typename OpTy>
	void testSingleVariadicInputInferredType() {
	// Test separate arg, separate param build method.
	auto op = builder.create<OpTy>(loc, i32Ty, ValueRange{cstI32, cstI32});
	verifyOp(std::move(op), {i32Ty}, {cstI32, cstI32}, noAttrs);

	// Test collective params build method.
	op =
	builder.create<OpTy>(loc, TypeRange{i32Ty}, ValueRange{cstI32, cstI32});
	verifyOp(std::move(op), {i32Ty}, {cstI32, cstI32}, noAttrs);

	// Test build method with no result types, default value of attributes.
	op = builder.create<OpTy>(loc, ValueRange{cstI32, cstI32});
	verifyOp(std::move(op), {i32Ty}, {cstI32, cstI32}, noAttrs);

	// Test build method with no result types and supplied attributes.
	op = builder.create<OpTy>(loc, ValueRange{cstI32, cstI32}, attrs);
	verifyOp(std::move(op), {i32Ty}, {cstI32, cstI32}, attrs);
	}

	protected:
	MLIRContext &ctx;
	OpBuilder builder;
	Location loc;
	Type i32Ty;
	Type f32Ty;
	OwningOpRef<test::TableGenConstant> cstI32;
	OwningOpRef<test::TableGenConstant> cstF32;

	ArrayRef<NamedAttribute> noAttrs;
	std::vector<NamedAttribute> attrStorage;
	ArrayRef<NamedAttribute> attrs;
	};

	/// Test basic build methods.
	TEST_F(OpBuildGenTest, BasicBuildMethods) {
	// Test separate args, separate results build method.
	auto op = builder.create<test::TableGenBuildOp0>(loc, i32Ty, *cstI32);
	verifyOp(op, {i32Ty}, {*cstI32}, noAttrs);

	// Test separate args, collective results build method.
	op = builder.create<test::TableGenBuildOp0>(loc, TypeRange{i32Ty}, *cstI32);
	verifyOp(op, {i32Ty}, {*cstI32}, noAttrs);

	// Test collective args, collective params build method.
	op = builder.create<test::TableGenBuildOp0>(loc, TypeRange{i32Ty},
	ValueRange{*cstI32});
	verifyOp(op, {i32Ty}, {*cstI32}, noAttrs);

	// Test collective args, collective results, non-empty attributes
	op = builder.create<test::TableGenBuildOp0>(loc, TypeRange{i32Ty},
	ValueRange{*cstI32}, attrs);
	verifyOp(op, {i32Ty}, {*cstI32}, attrs);
	}

	/// The following 3 tests exercise build methods generated for operations
	/// with a combination of:
	///
	/// single variadic arg x
	/// {single variadic result, non-variadic result, multiple variadic results}
	///
	/// Specifically to test that that ODS framework does not generate ambiguous
	/// build() methods that fail to compile.

	/// Test build methods for an Op with a single varadic arg and a single
	/// variadic result.
	TEST_F(OpBuildGenTest, BuildMethodsSingleVariadicArgAndResult) {
	// Test collective args, collective results method, building a unary op.
	auto op = builder.create<test::TableGenBuildOp1>(loc, TypeRange{i32Ty},
	ValueRange{*cstI32});
	verifyOp(std::move(op), {i32Ty}, {*cstI32}, noAttrs);

	// Test collective args, collective results method, building a unary op with
	// named attributes.
	op = builder.create<test::TableGenBuildOp1>(loc, TypeRange{i32Ty},
	ValueRange{*cstI32}, attrs);
	verifyOp(std::move(op), {i32Ty}, {*cstI32}, attrs);

	// Test collective args, collective results method, building a binary op.
	op = builder.create<test::TableGenBuildOp1>(loc, TypeRange{i32Ty, f32Ty},
	ValueRange{cstI32, cstF32});
	verifyOp(std::move(op), {i32Ty, f32Ty}, {cstI32, cstF32}, noAttrs);

	// Test collective args, collective results method, building a binary op with
	// named attributes.
	op = builder.create<test::TableGenBuildOp1>(
	loc, TypeRange{i32Ty, f32Ty}, ValueRange{cstI32, cstF32}, attrs);
	verifyOp(std::move(op), {i32Ty, f32Ty}, {cstI32, cstF32}, attrs);
	}

	/// Test build methods for an Op with a single varadic arg and a non-variadic
	/// result.
	TEST_F(OpBuildGenTest, BuildMethodsSingleVariadicArgNonVariadicResults) {
	// Test separate arg, separate param build method.
	auto op =
	builder.create<test::TableGenBuildOp1>(loc, i32Ty, ValueRange{*cstI32});
	verifyOp(std::move(op), {i32Ty}, {*cstI32}, noAttrs);

	// Test collective params build method, no attributes.
	op = builder.create<test::TableGenBuildOp1>(loc, TypeRange{i32Ty},
	ValueRange{*cstI32});
	verifyOp(std::move(op), {i32Ty}, {*cstI32}, noAttrs);

	// Test collective params build method no attributes, 2 inputs.
	op = builder.create<test::TableGenBuildOp1>(loc, TypeRange{i32Ty},
	ValueRange{cstI32, cstF32});
	verifyOp(std::move(op), {i32Ty}, {cstI32, cstF32}, noAttrs);

	// Test collective params build method, non-empty attributes.
	op = builder.create<test::TableGenBuildOp1>(
	loc, TypeRange{i32Ty}, ValueRange{cstI32, cstF32}, attrs);
	verifyOp(std::move(op), {i32Ty}, {cstI32, cstF32}, attrs);
	}

	/// Test build methods for an Op with a single varadic arg and multiple variadic
	/// result.
	TEST_F(OpBuildGenTest,
	BuildMethodsSingleVariadicArgAndMultipleVariadicResults) {
	// Test separate arg, separate param build method.
	auto op = builder.create<test::TableGenBuildOp3>(
	loc, TypeRange{i32Ty}, TypeRange{f32Ty}, ValueRange{*cstI32});
	verifyOp(std::move(op), {i32Ty, f32Ty}, {*cstI32}, noAttrs);

	// Test collective params build method, no attributes.
	op = builder.create<test::TableGenBuildOp3>(loc, TypeRange{i32Ty, f32Ty},
	ValueRange{*cstI32});
	verifyOp(std::move(op), {i32Ty, f32Ty}, {*cstI32}, noAttrs);

	// Test collective params build method, with attributes.
	op = builder.create<test::TableGenBuildOp3>(loc, TypeRange{i32Ty, f32Ty},
	ValueRange{*cstI32}, attrs);
	verifyOp(std::move(op), {i32Ty, f32Ty}, {*cstI32}, attrs);
	}

	// The next 2 tests test supression of ambiguous build methods for ops that
	// have a single variadic input, and single non-variadic result, and which
	// support the SameOperandsAndResultType trait and and optionally the
	// InferOpTypeInterface interface. For such ops, the ODS framework generates
	// build methods with no result types as they are inferred from the input types.
	TEST_F(OpBuildGenTest, BuildMethodsSameOperandsAndResultTypeSuppression) {
	testSingleVariadicInputInferredType<test::TableGenBuildOp4>();
	}

	TEST_F(
	OpBuildGenTest,
	BuildMethodsSameOperandsAndResultTypeAndInferOpTypeInterfaceSuppression) {
	testSingleVariadicInputInferredType<test::TableGenBuildOp5>();
	}

	} // namespace mlir