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

 //===- OperationSupportTest.cpp - Operation support 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/IR/OperationSupport.h"
 #include "mlir/IR/Builders.h"
 #include "mlir/IR/BuiltinTypes.h"
 #include "llvm/ADT/BitVector.h"
 #include "llvm/Support/FormatVariadic.h"
 #include "gtest/gtest.h"

 using namespace mlir;
 using namespace mlir::detail;

 static Operation *createOp(MLIRContext *context,
                            ArrayRef<Value> operands = llvm::None,
                            ArrayRef<Type> resultTypes = llvm::None,
                            unsigned int numRegions = 0) {
   context->allowUnregisteredDialects();
   return Operation::create(UnknownLoc::get(context),
                            OperationName("foo.bar", context), resultTypes,
                            operands, llvm::None, llvm::None, numRegions);
 }

 namespace {
 TEST(OperandStorageTest, NonResizable) {
   MLIRContext context;
   Builder builder(&context);

   Operation *useOp =
       createOp(&context, /*operands=*/llvm::None, builder.getIntegerType(16));
   Value operand = useOp->getResult(0);

   // Create a non-resizable operation with one operand.
   Operation *user = createOp(&context, operand);

   // The same number of operands is okay.
   user->setOperands(operand);
   EXPECT_EQ(user->getNumOperands(), 1u);

   // Removing is okay.
   user->setOperands(llvm::None);
   EXPECT_EQ(user->getNumOperands(), 0u);

   // Destroy the operations.
   user->destroy();
   useOp->destroy();
 }

 TEST(OperandStorageTest, Resizable) {
   MLIRContext context;
   Builder builder(&context);

   Operation *useOp =
       createOp(&context, /*operands=*/llvm::None, builder.getIntegerType(16));
   Value operand = useOp->getResult(0);

   // Create a resizable operation with one operand.
   Operation *user = createOp(&context, operand);

   // The same number of operands is okay.
   user->setOperands(operand);
   EXPECT_EQ(user->getNumOperands(), 1u);

   // Removing is okay.
   user->setOperands(llvm::None);
   EXPECT_EQ(user->getNumOperands(), 0u);

   // Adding more operands is okay.
   user->setOperands({operand, operand, operand});
   EXPECT_EQ(user->getNumOperands(), 3u);

   // Destroy the operations.
   user->destroy();
   useOp->destroy();
 }

 TEST(OperandStorageTest, RangeReplace) {
   MLIRContext context;
   Builder builder(&context);

   Operation *useOp =
       createOp(&context, /*operands=*/llvm::None, builder.getIntegerType(16));
   Value operand = useOp->getResult(0);

   // Create a resizable operation with one operand.
   Operation *user = createOp(&context, operand);

   // Check setting with the same number of operands.
   user->setOperands(/*start=*/0, /*length=*/1, operand);
   EXPECT_EQ(user->getNumOperands(), 1u);

   // Check setting with more operands.
   user->setOperands(/*start=*/0, /*length=*/1, {operand, operand, operand});
   EXPECT_EQ(user->getNumOperands(), 3u);

   // Check setting with less operands.
   user->setOperands(/*start=*/1, /*length=*/2, {operand});
   EXPECT_EQ(user->getNumOperands(), 2u);

   // Check inserting without replacing operands.
   user->setOperands(/*start=*/2, /*length=*/0, {operand});
   EXPECT_EQ(user->getNumOperands(), 3u);

   // Check erasing operands.
   user->setOperands(/*start=*/0, /*length=*/3, {});
   EXPECT_EQ(user->getNumOperands(), 0u);

   // Destroy the operations.
   user->destroy();
   useOp->destroy();
 }

 TEST(OperandStorageTest, MutableRange) {
   MLIRContext context;
   Builder builder(&context);

   Operation *useOp =
       createOp(&context, /*operands=*/llvm::None, builder.getIntegerType(16));
   Value operand = useOp->getResult(0);

   // Create a resizable operation with one operand.
   Operation *user = createOp(&context, operand);

   // Check setting with the same number of operands.
   MutableOperandRange mutableOperands(user);
   mutableOperands.assign(operand);
   EXPECT_EQ(mutableOperands.size(), 1u);
   EXPECT_EQ(user->getNumOperands(), 1u);

   // Check setting with more operands.
   mutableOperands.assign({operand, operand, operand});
   EXPECT_EQ(mutableOperands.size(), 3u);
   EXPECT_EQ(user->getNumOperands(), 3u);

   // Check with inserting a new operand.
   mutableOperands.append({operand, operand});
   EXPECT_EQ(mutableOperands.size(), 5u);
   EXPECT_EQ(user->getNumOperands(), 5u);

   // Check erasing operands.
   mutableOperands.clear();
   EXPECT_EQ(mutableOperands.size(), 0u);
   EXPECT_EQ(user->getNumOperands(), 0u);

   // Destroy the operations.
   user->destroy();
   useOp->destroy();
 }

 TEST(OperandStorageTest, RangeErase) {
   MLIRContext context;
   Builder builder(&context);

   Type type = builder.getNoneType();
   Operation *useOp = createOp(&context, /*operands=*/llvm::None, {type, type});
   Value operand1 = useOp->getResult(0);
   Value operand2 = useOp->getResult(1);

   // Create an operation with operands to erase.
   Operation *user =
       createOp(&context, {operand2, operand1, operand2, operand1});
   llvm::BitVector eraseIndices(user->getNumOperands());

   // Check erasing no operands.
   user->eraseOperands(eraseIndices);
   EXPECT_EQ(user->getNumOperands(), 4u);

   // Check erasing disjoint operands.
   eraseIndices.set(0);
   eraseIndices.set(3);
   user->eraseOperands(eraseIndices);
   EXPECT_EQ(user->getNumOperands(), 2u);
   EXPECT_EQ(user->getOperand(0), operand1);
   EXPECT_EQ(user->getOperand(1), operand2);

   // Destroy the operations.
   user->destroy();
   useOp->destroy();
 }

 TEST(OperationOrderTest, OrderIsAlwaysValid) {
   MLIRContext context;
   Builder builder(&context);

   Operation *containerOp =
       createOp(&context, /*operands=*/llvm::None, /*resultTypes=*/llvm::None,
                /*numRegions=*/1);
   Region &region = containerOp->getRegion(0);
   Block *block = new Block();
   region.push_back(block);

   // Insert two operations, then iteratively add more operations in the middle
   // of them. Eventually we will insert more than kOrderStride operations and
   // the block order will need to be recomputed.
   Operation *frontOp = createOp(&context);
   Operation *backOp = createOp(&context);
   block->push_back(frontOp);
   block->push_back(backOp);

   // Chosen to be larger than Operation::kOrderStride.
   int kNumOpsToInsert = 10;
   for (int i = 0; i < kNumOpsToInsert; ++i) {
     Operation *op = createOp(&context);
     block->getOperations().insert(backOp->getIterator(), op);
     ASSERT_TRUE(op->isBeforeInBlock(backOp));
     // Note verifyOpOrder() returns false if the order is valid.
     ASSERT_FALSE(block->verifyOpOrder());
   }

   containerOp->destroy();
 }

 TEST(OperationFormatPrintTest, CanUseVariadicFormat) {
   MLIRContext context;
   Builder builder(&context);

   Operation *op = createOp(&context);

   std::string str = formatv("{0}", *op).str();
   ASSERT_STREQ(str.c_str(), "\"foo.bar\"() : () -> ()");

   op->destroy();
 }

 TEST(NamedAttrListTest, TestAppendAssign) {
   MLIRContext ctx;
   NamedAttrList attrs;
   Builder b(&ctx);

   attrs.append("foo", b.getStringAttr("bar"));
   attrs.append("baz", b.getStringAttr("boo"));

   {
     auto it = attrs.begin();
     EXPECT_EQ(it->getName(), b.getStringAttr("foo"));
     EXPECT_EQ(it->getValue(), b.getStringAttr("bar"));
     ++it;
     EXPECT_EQ(it->getName(), b.getStringAttr("baz"));
     EXPECT_EQ(it->getValue(), b.getStringAttr("boo"));
   }

   attrs.append("foo", b.getStringAttr("zoo"));
   {
     auto dup = attrs.findDuplicate();
     ASSERT_TRUE(dup.hasValue());
   }

   SmallVector<NamedAttribute> newAttrs = {
       b.getNamedAttr("foo", b.getStringAttr("f")),
       b.getNamedAttr("zoo", b.getStringAttr("z")),
   };
   attrs.assign(newAttrs);

   auto dup = attrs.findDuplicate();
   ASSERT_FALSE(dup.hasValue());

   {
     auto it = attrs.begin();
     EXPECT_EQ(it->getName(), b.getStringAttr("foo"));
     EXPECT_EQ(it->getValue(), b.getStringAttr("f"));
     ++it;
     EXPECT_EQ(it->getName(), b.getStringAttr("zoo"));
     EXPECT_EQ(it->getValue(), b.getStringAttr("z"));
   }

   attrs.assign({});
   ASSERT_TRUE(attrs.empty());
 }
 } // end namespace
	//===- OperationSupportTest.cpp - Operation support 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/IR/OperationSupport.h"
	#include "mlir/IR/Builders.h"
	#include "mlir/IR/BuiltinTypes.h"
	#include "llvm/ADT/BitVector.h"
	#include "llvm/Support/FormatVariadic.h"
	#include "gtest/gtest.h"

	using namespace mlir;
	using namespace mlir::detail;

	static Operation createOp(MLIRContext context,
	ArrayRef<Value> operands = llvm::None,
	ArrayRef<Type> resultTypes = llvm::None,
	unsigned int numRegions = 0) {
	context->allowUnregisteredDialects();
	return Operation::create(UnknownLoc::get(context),
	OperationName("foo.bar", context), resultTypes,
	operands, llvm::None, llvm::None, numRegions);
	}

	namespace {
	TEST(OperandStorageTest, NonResizable) {
	MLIRContext context;
	Builder builder(&context);

	Operation *useOp =
	createOp(&context, /operands=/llvm::None, builder.getIntegerType(16));
	Value operand = useOp->getResult(0);

	// Create a non-resizable operation with one operand.
	Operation *user = createOp(&context, operand);

	// The same number of operands is okay.
	user->setOperands(operand);
	EXPECT_EQ(user->getNumOperands(), 1u);

	// Removing is okay.
	user->setOperands(llvm::None);
	EXPECT_EQ(user->getNumOperands(), 0u);

	// Destroy the operations.
	user->destroy();
	useOp->destroy();
	}

	TEST(OperandStorageTest, Resizable) {
	MLIRContext context;
	Builder builder(&context);

	Operation *useOp =
	createOp(&context, /operands=/llvm::None, builder.getIntegerType(16));
	Value operand = useOp->getResult(0);

	// Create a resizable operation with one operand.
	Operation *user = createOp(&context, operand);

	// The same number of operands is okay.
	user->setOperands(operand);
	EXPECT_EQ(user->getNumOperands(), 1u);

	// Removing is okay.
	user->setOperands(llvm::None);
	EXPECT_EQ(user->getNumOperands(), 0u);

	// Adding more operands is okay.
	user->setOperands({operand, operand, operand});
	EXPECT_EQ(user->getNumOperands(), 3u);

	// Destroy the operations.
	user->destroy();
	useOp->destroy();
	}

	TEST(OperandStorageTest, RangeReplace) {
	MLIRContext context;
	Builder builder(&context);

	Operation *useOp =
	createOp(&context, /operands=/llvm::None, builder.getIntegerType(16));
	Value operand = useOp->getResult(0);

	// Create a resizable operation with one operand.
	Operation *user = createOp(&context, operand);

	// Check setting with the same number of operands.
	user->setOperands(/start=/0, /length=/1, operand);
	EXPECT_EQ(user->getNumOperands(), 1u);

	// Check setting with more operands.
	user->setOperands(/start=/0, /length=/1, {operand, operand, operand});
	EXPECT_EQ(user->getNumOperands(), 3u);

	// Check setting with less operands.
	user->setOperands(/start=/1, /length=/2, {operand});
	EXPECT_EQ(user->getNumOperands(), 2u);

	// Check inserting without replacing operands.
	user->setOperands(/start=/2, /length=/0, {operand});
	EXPECT_EQ(user->getNumOperands(), 3u);

	// Check erasing operands.
	user->setOperands(/start=/0, /length=/3, {});
	EXPECT_EQ(user->getNumOperands(), 0u);

	// Destroy the operations.
	user->destroy();
	useOp->destroy();
	}

	TEST(OperandStorageTest, MutableRange) {
	MLIRContext context;
	Builder builder(&context);

	Operation *useOp =
	createOp(&context, /operands=/llvm::None, builder.getIntegerType(16));
	Value operand = useOp->getResult(0);

	// Create a resizable operation with one operand.
	Operation *user = createOp(&context, operand);

	// Check setting with the same number of operands.
	MutableOperandRange mutableOperands(user);
	mutableOperands.assign(operand);
	EXPECT_EQ(mutableOperands.size(), 1u);
	EXPECT_EQ(user->getNumOperands(), 1u);

	// Check setting with more operands.
	mutableOperands.assign({operand, operand, operand});
	EXPECT_EQ(mutableOperands.size(), 3u);
	EXPECT_EQ(user->getNumOperands(), 3u);

	// Check with inserting a new operand.
	mutableOperands.append({operand, operand});
	EXPECT_EQ(mutableOperands.size(), 5u);
	EXPECT_EQ(user->getNumOperands(), 5u);

	// Check erasing operands.
	mutableOperands.clear();
	EXPECT_EQ(mutableOperands.size(), 0u);
	EXPECT_EQ(user->getNumOperands(), 0u);

	// Destroy the operations.
	user->destroy();
	useOp->destroy();
	}

	TEST(OperandStorageTest, RangeErase) {
	MLIRContext context;
	Builder builder(&context);

	Type type = builder.getNoneType();
	Operation useOp = createOp(&context, /operands=*/llvm::None, {type, type});
	Value operand1 = useOp->getResult(0);
	Value operand2 = useOp->getResult(1);

	// Create an operation with operands to erase.
	Operation *user =
	createOp(&context, {operand2, operand1, operand2, operand1});
	llvm::BitVector eraseIndices(user->getNumOperands());

	// Check erasing no operands.
	user->eraseOperands(eraseIndices);
	EXPECT_EQ(user->getNumOperands(), 4u);

	// Check erasing disjoint operands.
	eraseIndices.set(0);
	eraseIndices.set(3);
	user->eraseOperands(eraseIndices);
	EXPECT_EQ(user->getNumOperands(), 2u);
	EXPECT_EQ(user->getOperand(0), operand1);
	EXPECT_EQ(user->getOperand(1), operand2);

	// Destroy the operations.
	user->destroy();
	useOp->destroy();
	}

	TEST(OperationOrderTest, OrderIsAlwaysValid) {
	MLIRContext context;
	Builder builder(&context);

	Operation *containerOp =
	createOp(&context, /operands=/llvm::None, /resultTypes=/llvm::None,
	/numRegions=/1);
	Region &region = containerOp->getRegion(0);
	Block *block = new Block();
	region.push_back(block);

	// Insert two operations, then iteratively add more operations in the middle
	// of them. Eventually we will insert more than kOrderStride operations and
	// the block order will need to be recomputed.
	Operation *frontOp = createOp(&context);
	Operation *backOp = createOp(&context);
	block->push_back(frontOp);
	block->push_back(backOp);

	// Chosen to be larger than Operation::kOrderStride.
	int kNumOpsToInsert = 10;
	for (int i = 0; i < kNumOpsToInsert; ++i) {
	Operation *op = createOp(&context);
	block->getOperations().insert(backOp->getIterator(), op);
	ASSERT_TRUE(op->isBeforeInBlock(backOp));
	// Note verifyOpOrder() returns false if the order is valid.
	ASSERT_FALSE(block->verifyOpOrder());
	}

	containerOp->destroy();
	}

	TEST(OperationFormatPrintTest, CanUseVariadicFormat) {
	MLIRContext context;
	Builder builder(&context);

	Operation *op = createOp(&context);

	std::string str = formatv("{0}", *op).str();
	ASSERT_STREQ(str.c_str(), "\"foo.bar\"() : () -> ()");

	op->destroy();
	}

	TEST(NamedAttrListTest, TestAppendAssign) {
	MLIRContext ctx;
	NamedAttrList attrs;
	Builder b(&ctx);

	attrs.append("foo", b.getStringAttr("bar"));
	attrs.append("baz", b.getStringAttr("boo"));

	{
	auto it = attrs.begin();
	EXPECT_EQ(it->getName(), b.getStringAttr("foo"));
	EXPECT_EQ(it->getValue(), b.getStringAttr("bar"));
	++it;
	EXPECT_EQ(it->getName(), b.getStringAttr("baz"));
	EXPECT_EQ(it->getValue(), b.getStringAttr("boo"));
	}

	attrs.append("foo", b.getStringAttr("zoo"));
	{
	auto dup = attrs.findDuplicate();
	ASSERT_TRUE(dup.hasValue());
	}

	SmallVector<NamedAttribute> newAttrs = {
	b.getNamedAttr("foo", b.getStringAttr("f")),
	b.getNamedAttr("zoo", b.getStringAttr("z")),
	};
	attrs.assign(newAttrs);

	auto dup = attrs.findDuplicate();
	ASSERT_FALSE(dup.hasValue());

	{
	auto it = attrs.begin();
	EXPECT_EQ(it->getName(), b.getStringAttr("foo"));
	EXPECT_EQ(it->getValue(), b.getStringAttr("f"));
	++it;
	EXPECT_EQ(it->getName(), b.getStringAttr("zoo"));
	EXPECT_EQ(it->getValue(), b.getStringAttr("z"));
	}

	attrs.assign({});
	ASSERT_TRUE(attrs.empty());
	}
	} // end namespace