mlir/unittests/Pass/AnalysisManagerTest.cpp - llvm-project - Git at Google

 //===- AnalysisManagerTest.cpp - AnalysisManager unit 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
 //
 //===----------------------------------------------------------------------===//

 #include "mlir/Pass/AnalysisManager.h"
 #include "mlir/IR/Builders.h"
 #include "mlir/IR/BuiltinOps.h"
 #include "mlir/Pass/Pass.h"
 #include "mlir/Pass/PassManager.h"
 #include "gtest/gtest.h"

 using namespace mlir;
 using namespace mlir::detail;

 namespace {
 /// Minimal class definitions for two analyses.
 struct MyAnalysis {
   MyAnalysis(Operation *) {}
 };
 struct OtherAnalysis {
   OtherAnalysis(Operation *) {}
 };
 struct OpSpecificAnalysis {
   OpSpecificAnalysis(ModuleOp) {}
 };

 TEST(AnalysisManagerTest, FineGrainModuleAnalysisPreservation) {
   MLIRContext context;

   // Test fine grain invalidation of the module analysis manager.
   OwningModuleRef module(ModuleOp::create(UnknownLoc::get(&context)));
   ModuleAnalysisManager mam(*module, /*passInstrumentor=*/nullptr);
   AnalysisManager am = mam;

   // Query two different analyses, but only preserve one before invalidating.
   am.getAnalysis<MyAnalysis>();
   am.getAnalysis<OtherAnalysis>();

   detail::PreservedAnalyses pa;
   pa.preserve<MyAnalysis>();
   am.invalidate(pa);

   // Check that only MyAnalysis is preserved.
   EXPECT_TRUE(am.getCachedAnalysis<MyAnalysis>().hasValue());
   EXPECT_FALSE(am.getCachedAnalysis<OtherAnalysis>().hasValue());
 }

 TEST(AnalysisManagerTest, FineGrainFunctionAnalysisPreservation) {
   MLIRContext context;
   Builder builder(&context);

   // Create a function and a module.
   OwningModuleRef module(ModuleOp::create(UnknownLoc::get(&context)));
   FuncOp func1 =
       FuncOp::create(builder.getUnknownLoc(), "foo",
                      builder.getFunctionType(llvm::None, llvm::None));
   func1.setPrivate();
   module->push_back(func1);

   // Test fine grain invalidation of the function analysis manager.
   ModuleAnalysisManager mam(*module, /*passInstrumentor=*/nullptr);
   AnalysisManager am = mam;
   AnalysisManager fam = am.nest(func1);

   // Query two different analyses, but only preserve one before invalidating.
   fam.getAnalysis<MyAnalysis>();
   fam.getAnalysis<OtherAnalysis>();

   detail::PreservedAnalyses pa;
   pa.preserve<MyAnalysis>();
   fam.invalidate(pa);

   // Check that only MyAnalysis is preserved.
   EXPECT_TRUE(fam.getCachedAnalysis<MyAnalysis>().hasValue());
   EXPECT_FALSE(fam.getCachedAnalysis<OtherAnalysis>().hasValue());
 }

 TEST(AnalysisManagerTest, FineGrainChildFunctionAnalysisPreservation) {
   MLIRContext context;
   Builder builder(&context);

   // Create a function and a module.
   OwningModuleRef module(ModuleOp::create(UnknownLoc::get(&context)));
   FuncOp func1 =
       FuncOp::create(builder.getUnknownLoc(), "foo",
                      builder.getFunctionType(llvm::None, llvm::None));
   func1.setPrivate();
   module->push_back(func1);

   // Test fine grain invalidation of a function analysis from within a module
   // analysis manager.
   ModuleAnalysisManager mam(*module, /*passInstrumentor=*/nullptr);
   AnalysisManager am = mam;

   // Check that the analysis cache is initially empty.
   EXPECT_FALSE(am.getCachedChildAnalysis<MyAnalysis>(func1).hasValue());

   // Query two different analyses, but only preserve one before invalidating.
   am.getChildAnalysis<MyAnalysis>(func1);
   am.getChildAnalysis<OtherAnalysis>(func1);

   detail::PreservedAnalyses pa;
   pa.preserve<MyAnalysis>();
   am.invalidate(pa);

   // Check that only MyAnalysis is preserved.
   EXPECT_TRUE(am.getCachedChildAnalysis<MyAnalysis>(func1).hasValue());
   EXPECT_FALSE(am.getCachedChildAnalysis<OtherAnalysis>(func1).hasValue());
 }

 /// Test analyses with custom invalidation logic.
 struct TestAnalysisSet {};

 struct CustomInvalidatingAnalysis {
   CustomInvalidatingAnalysis(Operation *) {}

   bool isInvalidated(const AnalysisManager::PreservedAnalyses &pa) {
     return !pa.isPreserved<TestAnalysisSet>();
   }
 };

 TEST(AnalysisManagerTest, CustomInvalidation) {
   MLIRContext context;
   Builder builder(&context);

   // Create a function and a module.
   OwningModuleRef module(ModuleOp::create(UnknownLoc::get(&context)));
   ModuleAnalysisManager mam(*module, /*passInstrumentor=*/nullptr);
   AnalysisManager am = mam;

   detail::PreservedAnalyses pa;

   // Check that the analysis is invalidated properly.
   am.getAnalysis<CustomInvalidatingAnalysis>();
   am.invalidate(pa);
   EXPECT_FALSE(am.getCachedAnalysis<CustomInvalidatingAnalysis>().hasValue());

   // Check that the analysis is preserved properly.
   am.getAnalysis<CustomInvalidatingAnalysis>();
   pa.preserve<TestAnalysisSet>();
   am.invalidate(pa);
   EXPECT_TRUE(am.getCachedAnalysis<CustomInvalidatingAnalysis>().hasValue());
 }

 TEST(AnalysisManagerTest, OpSpecificAnalysis) {
   MLIRContext context;

   // Create a module.
   OwningModuleRef module(ModuleOp::create(UnknownLoc::get(&context)));
   ModuleAnalysisManager mam(*module, /*passInstrumentor=*/nullptr);
   AnalysisManager am = mam;

   // Query the op specific analysis for the module and verify that its cached.
   am.getAnalysis<OpSpecificAnalysis, ModuleOp>();
   EXPECT_TRUE(am.getCachedAnalysis<OpSpecificAnalysis>().hasValue());
 }

 struct AnalysisWithDependency {
   AnalysisWithDependency(Operation *, AnalysisManager &am) {
     am.getAnalysis<MyAnalysis>();
   }

   bool isInvalidated(const AnalysisManager::PreservedAnalyses &pa) {
     return !pa.isPreserved<AnalysisWithDependency>() ||
            !pa.isPreserved<MyAnalysis>();
   }
 };

 TEST(AnalysisManagerTest, DependentAnalysis) {
   MLIRContext context;

   // Create a module.
   OwningModuleRef module(ModuleOp::create(UnknownLoc::get(&context)));
   ModuleAnalysisManager mam(*module, /*passInstrumentor=*/nullptr);
   AnalysisManager am = mam;

   am.getAnalysis<AnalysisWithDependency>();
   EXPECT_TRUE(am.getCachedAnalysis<AnalysisWithDependency>().hasValue());
   EXPECT_TRUE(am.getCachedAnalysis<MyAnalysis>().hasValue());

   detail::PreservedAnalyses pa;
   pa.preserve<AnalysisWithDependency>();
   am.invalidate(pa);

   EXPECT_FALSE(am.getCachedAnalysis<AnalysisWithDependency>().hasValue());
   EXPECT_FALSE(am.getCachedAnalysis<MyAnalysis>().hasValue());
 }

 struct AnalysisWithNestedDependency {
   AnalysisWithNestedDependency(Operation *, AnalysisManager &am) {
     am.getAnalysis<AnalysisWithDependency>();
   }

   bool isInvalidated(const AnalysisManager::PreservedAnalyses &pa) {
     return !pa.isPreserved<AnalysisWithNestedDependency>() ||
            !pa.isPreserved<AnalysisWithDependency>();
   }
 };

 TEST(AnalysisManagerTest, NestedDependentAnalysis) {
   MLIRContext context;

   // Create a module.
   OwningModuleRef module(ModuleOp::create(UnknownLoc::get(&context)));
   ModuleAnalysisManager mam(*module, /*passInstrumentor=*/nullptr);
   AnalysisManager am = mam;

   am.getAnalysis<AnalysisWithNestedDependency>();
   EXPECT_TRUE(am.getCachedAnalysis<AnalysisWithNestedDependency>().hasValue());
   EXPECT_TRUE(am.getCachedAnalysis<AnalysisWithDependency>().hasValue());
   EXPECT_TRUE(am.getCachedAnalysis<MyAnalysis>().hasValue());

   detail::PreservedAnalyses pa;
   pa.preserve<AnalysisWithDependency>();
   pa.preserve<AnalysisWithNestedDependency>();
   am.invalidate(pa);

   EXPECT_FALSE(am.getCachedAnalysis<AnalysisWithNestedDependency>().hasValue());
   EXPECT_FALSE(am.getCachedAnalysis<AnalysisWithDependency>().hasValue());
   EXPECT_FALSE(am.getCachedAnalysis<MyAnalysis>().hasValue());
 }

 struct AnalysisWith2Ctors {
   AnalysisWith2Ctors(Operation *) { ctor1called = true; }

   AnalysisWith2Ctors(Operation *, AnalysisManager &) { ctor2called = true; }

   bool ctor1called = false;
   bool ctor2called = false;
 };

 TEST(AnalysisManagerTest, DependentAnalysis2Ctors) {
   MLIRContext context;

   // Create a module.
   OwningModuleRef module(ModuleOp::create(UnknownLoc::get(&context)));
   ModuleAnalysisManager mam(*module, /*passInstrumentor=*/nullptr);
   AnalysisManager am = mam;

   auto &an = am.getAnalysis<AnalysisWith2Ctors>();
   EXPECT_FALSE(an.ctor1called);
   EXPECT_TRUE(an.ctor2called);
 }

 } // end namespace
	//===- AnalysisManagerTest.cpp - AnalysisManager unit 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
	//
	//===----------------------------------------------------------------------===//

	#include "mlir/Pass/AnalysisManager.h"
	#include "mlir/IR/Builders.h"
	#include "mlir/IR/BuiltinOps.h"
	#include "mlir/Pass/Pass.h"
	#include "mlir/Pass/PassManager.h"
	#include "gtest/gtest.h"

	using namespace mlir;
	using namespace mlir::detail;

	namespace {
	/// Minimal class definitions for two analyses.
	struct MyAnalysis {
	MyAnalysis(Operation *) {}
	};
	struct OtherAnalysis {
	OtherAnalysis(Operation *) {}
	};
	struct OpSpecificAnalysis {
	OpSpecificAnalysis(ModuleOp) {}
	};

	TEST(AnalysisManagerTest, FineGrainModuleAnalysisPreservation) {
	MLIRContext context;

	// Test fine grain invalidation of the module analysis manager.
	OwningModuleRef module(ModuleOp::create(UnknownLoc::get(&context)));
	ModuleAnalysisManager mam(module, /passInstrumentor=*/nullptr);
	AnalysisManager am = mam;

	// Query two different analyses, but only preserve one before invalidating.
	am.getAnalysis<MyAnalysis>();
	am.getAnalysis<OtherAnalysis>();

	detail::PreservedAnalyses pa;
	pa.preserve<MyAnalysis>();
	am.invalidate(pa);

	// Check that only MyAnalysis is preserved.
	EXPECT_TRUE(am.getCachedAnalysis<MyAnalysis>().hasValue());
	EXPECT_FALSE(am.getCachedAnalysis<OtherAnalysis>().hasValue());
	}

	TEST(AnalysisManagerTest, FineGrainFunctionAnalysisPreservation) {
	MLIRContext context;
	Builder builder(&context);

	// Create a function and a module.
	OwningModuleRef module(ModuleOp::create(UnknownLoc::get(&context)));
	FuncOp func1 =
	FuncOp::create(builder.getUnknownLoc(), "foo",
	builder.getFunctionType(llvm::None, llvm::None));
	func1.setPrivate();
	module->push_back(func1);

	// Test fine grain invalidation of the function analysis manager.
	ModuleAnalysisManager mam(module, /passInstrumentor=*/nullptr);
	AnalysisManager am = mam;
	AnalysisManager fam = am.nest(func1);

	// Query two different analyses, but only preserve one before invalidating.
	fam.getAnalysis<MyAnalysis>();
	fam.getAnalysis<OtherAnalysis>();

	detail::PreservedAnalyses pa;
	pa.preserve<MyAnalysis>();
	fam.invalidate(pa);

	// Check that only MyAnalysis is preserved.
	EXPECT_TRUE(fam.getCachedAnalysis<MyAnalysis>().hasValue());
	EXPECT_FALSE(fam.getCachedAnalysis<OtherAnalysis>().hasValue());
	}

	TEST(AnalysisManagerTest, FineGrainChildFunctionAnalysisPreservation) {
	MLIRContext context;
	Builder builder(&context);

	// Create a function and a module.
	OwningModuleRef module(ModuleOp::create(UnknownLoc::get(&context)));
	FuncOp func1 =
	FuncOp::create(builder.getUnknownLoc(), "foo",
	builder.getFunctionType(llvm::None, llvm::None));
	func1.setPrivate();
	module->push_back(func1);

	// Test fine grain invalidation of a function analysis from within a module
	// analysis manager.
	ModuleAnalysisManager mam(module, /passInstrumentor=*/nullptr);
	AnalysisManager am = mam;

	// Check that the analysis cache is initially empty.
	EXPECT_FALSE(am.getCachedChildAnalysis<MyAnalysis>(func1).hasValue());

	// Query two different analyses, but only preserve one before invalidating.
	am.getChildAnalysis<MyAnalysis>(func1);
	am.getChildAnalysis<OtherAnalysis>(func1);

	detail::PreservedAnalyses pa;
	pa.preserve<MyAnalysis>();
	am.invalidate(pa);

	// Check that only MyAnalysis is preserved.
	EXPECT_TRUE(am.getCachedChildAnalysis<MyAnalysis>(func1).hasValue());
	EXPECT_FALSE(am.getCachedChildAnalysis<OtherAnalysis>(func1).hasValue());
	}

	/// Test analyses with custom invalidation logic.
	struct TestAnalysisSet {};

	struct CustomInvalidatingAnalysis {
	CustomInvalidatingAnalysis(Operation *) {}

	bool isInvalidated(const AnalysisManager::PreservedAnalyses &pa) {
	return !pa.isPreserved<TestAnalysisSet>();
	}
	};

	TEST(AnalysisManagerTest, CustomInvalidation) {
	MLIRContext context;
	Builder builder(&context);

	// Create a function and a module.
	OwningModuleRef module(ModuleOp::create(UnknownLoc::get(&context)));
	ModuleAnalysisManager mam(module, /passInstrumentor=*/nullptr);
	AnalysisManager am = mam;

	detail::PreservedAnalyses pa;

	// Check that the analysis is invalidated properly.
	am.getAnalysis<CustomInvalidatingAnalysis>();
	am.invalidate(pa);
	EXPECT_FALSE(am.getCachedAnalysis<CustomInvalidatingAnalysis>().hasValue());

	// Check that the analysis is preserved properly.
	am.getAnalysis<CustomInvalidatingAnalysis>();
	pa.preserve<TestAnalysisSet>();
	am.invalidate(pa);
	EXPECT_TRUE(am.getCachedAnalysis<CustomInvalidatingAnalysis>().hasValue());
	}

	TEST(AnalysisManagerTest, OpSpecificAnalysis) {
	MLIRContext context;

	// Create a module.
	OwningModuleRef module(ModuleOp::create(UnknownLoc::get(&context)));
	ModuleAnalysisManager mam(module, /passInstrumentor=*/nullptr);
	AnalysisManager am = mam;

	// Query the op specific analysis for the module and verify that its cached.
	am.getAnalysis<OpSpecificAnalysis, ModuleOp>();
	EXPECT_TRUE(am.getCachedAnalysis<OpSpecificAnalysis>().hasValue());
	}

	struct AnalysisWithDependency {
	AnalysisWithDependency(Operation *, AnalysisManager &am) {
	am.getAnalysis<MyAnalysis>();
	}

	bool isInvalidated(const AnalysisManager::PreservedAnalyses &pa) {
	return !pa.isPreserved<AnalysisWithDependency>() \|\|
	!pa.isPreserved<MyAnalysis>();
	}
	};

	TEST(AnalysisManagerTest, DependentAnalysis) {
	MLIRContext context;

	// Create a module.
	OwningModuleRef module(ModuleOp::create(UnknownLoc::get(&context)));
	ModuleAnalysisManager mam(module, /passInstrumentor=*/nullptr);
	AnalysisManager am = mam;

	am.getAnalysis<AnalysisWithDependency>();
	EXPECT_TRUE(am.getCachedAnalysis<AnalysisWithDependency>().hasValue());
	EXPECT_TRUE(am.getCachedAnalysis<MyAnalysis>().hasValue());

	detail::PreservedAnalyses pa;
	pa.preserve<AnalysisWithDependency>();
	am.invalidate(pa);

	EXPECT_FALSE(am.getCachedAnalysis<AnalysisWithDependency>().hasValue());
	EXPECT_FALSE(am.getCachedAnalysis<MyAnalysis>().hasValue());
	}

	struct AnalysisWithNestedDependency {
	AnalysisWithNestedDependency(Operation *, AnalysisManager &am) {
	am.getAnalysis<AnalysisWithDependency>();
	}

	bool isInvalidated(const AnalysisManager::PreservedAnalyses &pa) {
	return !pa.isPreserved<AnalysisWithNestedDependency>() \|\|
	!pa.isPreserved<AnalysisWithDependency>();
	}
	};

	TEST(AnalysisManagerTest, NestedDependentAnalysis) {
	MLIRContext context;

	// Create a module.
	OwningModuleRef module(ModuleOp::create(UnknownLoc::get(&context)));
	ModuleAnalysisManager mam(module, /passInstrumentor=*/nullptr);
	AnalysisManager am = mam;

	am.getAnalysis<AnalysisWithNestedDependency>();
	EXPECT_TRUE(am.getCachedAnalysis<AnalysisWithNestedDependency>().hasValue());
	EXPECT_TRUE(am.getCachedAnalysis<AnalysisWithDependency>().hasValue());
	EXPECT_TRUE(am.getCachedAnalysis<MyAnalysis>().hasValue());

	detail::PreservedAnalyses pa;
	pa.preserve<AnalysisWithDependency>();
	pa.preserve<AnalysisWithNestedDependency>();
	am.invalidate(pa);

	EXPECT_FALSE(am.getCachedAnalysis<AnalysisWithNestedDependency>().hasValue());
	EXPECT_FALSE(am.getCachedAnalysis<AnalysisWithDependency>().hasValue());
	EXPECT_FALSE(am.getCachedAnalysis<MyAnalysis>().hasValue());
	}

	struct AnalysisWith2Ctors {
	AnalysisWith2Ctors(Operation *) { ctor1called = true; }

	AnalysisWith2Ctors(Operation *, AnalysisManager &) { ctor2called = true; }

	bool ctor1called = false;
	bool ctor2called = false;
	};

	TEST(AnalysisManagerTest, DependentAnalysis2Ctors) {
	MLIRContext context;

	// Create a module.
	OwningModuleRef module(ModuleOp::create(UnknownLoc::get(&context)));
	ModuleAnalysisManager mam(module, /passInstrumentor=*/nullptr);
	AnalysisManager am = mam;

	auto &an = am.getAnalysis<AnalysisWith2Ctors>();
	EXPECT_FALSE(an.ctor1called);
	EXPECT_TRUE(an.ctor2called);
	}

	} // end namespace