mlir/lib/Analysis/NumberOfExecutions.cpp - llvm-project - Git at Google

 //===- NumberOfExecutions.cpp - Number of executions analysis -------------===//
 //
 // 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
 //
 //===----------------------------------------------------------------------===//
 //
 // Implementation of the number of executions analysis.
 //
 //===----------------------------------------------------------------------===//

 #include "mlir/Analysis/NumberOfExecutions.h"
 #include "mlir/IR/Matchers.h"
 #include "mlir/IR/RegionKindInterface.h"
 #include "mlir/Interfaces/ControlFlowInterfaces.h"

 #include "llvm/ADT/FunctionExtras.h"
 #include "llvm/ADT/SmallSet.h"
 #include "llvm/Support/raw_ostream.h"

 #define DEBUG_TYPE "number-of-executions-analysis"

 using namespace mlir;

 //===----------------------------------------------------------------------===//
 // NumberOfExecutions
 //===----------------------------------------------------------------------===//

 /// Computes blocks number of executions information for the given region.
 static void computeRegionBlockNumberOfExecutions(
     Region &region, DenseMap<Block *, BlockNumberOfExecutionsInfo> &blockInfo) {
   Operation *parentOp = region.getParentOp();
   int regionId = region.getRegionNumber();

   auto regionKindInterface = dyn_cast<RegionKindInterface>(parentOp);
   bool isGraphRegion =
       regionKindInterface &&
       regionKindInterface.getRegionKind(regionId) == RegionKind::Graph;

   // CFG analysis does not make sense for Graph regions, set the number of
   // executions for all blocks as unknown.
   if (isGraphRegion) {
     for (Block &block : region)
       blockInfo.insert({&block, {&block, None, None}});
     return;
   }

   // Number of region invocations for all attached regions.
   SmallVector<int64_t, 4> numRegionsInvocations;

   // Query RegionBranchOpInterface interface if it is available.
   if (auto regionInterface = dyn_cast<RegionBranchOpInterface>(parentOp)) {
     SmallVector<Attribute, 4> operands(parentOp->getNumOperands());
     for (auto operandIt : llvm::enumerate(parentOp->getOperands()))
       matchPattern(operandIt.value(), m_Constant(&operands[operandIt.index()]));

     regionInterface.getNumRegionInvocations(operands, numRegionsInvocations);
   }

   // Number of region invocations *each time* parent operation is invoked.
   Optional<int64_t> numRegionInvocations;

   if (!numRegionsInvocations.empty() &&
       numRegionsInvocations[regionId] != kUnknownNumRegionInvocations) {
     numRegionInvocations = numRegionsInvocations[regionId];
   }

   // DFS traversal looking for loops in the CFG.
   llvm::SmallSet<Block *, 4> loopStart;

   llvm::unique_function<void(Block *, llvm::SmallSet<Block *, 4> &)> dfs =
       [&](Block *block, llvm::SmallSet<Block *, 4> &visited) {
         // Found a loop in the CFG that starts at the `block`.
         if (visited.contains(block)) {
           loopStart.insert(block);
           return;
         }

         // Continue DFS traversal.
         visited.insert(block);
         for (Block *successor : block->getSuccessors())
           dfs(successor, visited);
         visited.erase(block);
       };

   llvm::SmallSet<Block *, 4> visited;
   dfs(&region.front(), visited);

   // Start from the entry block and follow only blocks with single succesor.
   Block *block = &region.front();
   while (block && !loopStart.contains(block)) {
     // Block will be executed exactly once.
     blockInfo.insert(
         {block, BlockNumberOfExecutionsInfo(block, numRegionInvocations,
                                             /*numberOfBlockExecutions=*/1)});

     // We reached the exit block or block with multiple successors.
     if (block->getNumSuccessors() != 1)
       break;

     // Continue traversal.
     block = block->getSuccessor(0);
   }

   // For all blocks that we did not visit set the executions number to unknown.
   for (Block &block : region)
     if (blockInfo.count(&block) == 0)
       blockInfo.insert({&block, BlockNumberOfExecutionsInfo(
                                     &block, numRegionInvocations,
                                     /*numberOfBlockExecutions=*/None)});
 }

 /// Creates a new NumberOfExecutions analysis that computes how many times a
 /// block within a region is executed for all associated regions.
 NumberOfExecutions::NumberOfExecutions(Operation *op) : operation(op) {
   operation->walk<WalkOrder::PreOrder>([&](Region *region) {
     computeRegionBlockNumberOfExecutions(*region, blockNumbersOfExecution);
   });
 }

 Optional<int64_t>
 NumberOfExecutions::getNumberOfExecutions(Operation *op,
                                           Region *perEntryOfThisRegion) const {
   // Assuming that all operations complete in a finite amount of time (do not
   // abort and do not go into the infinite loop), the number of operation
   // executions is equal to the number of block executions that contains the
   // operation.
   return getNumberOfExecutions(op->getBlock(), perEntryOfThisRegion);
 }

 Optional<int64_t>
 NumberOfExecutions::getNumberOfExecutions(Block *block,
                                           Region *perEntryOfThisRegion) const {
   // Return None if the given `block` does not lie inside the
   // `perEntryOfThisRegion` region.
   if (!perEntryOfThisRegion->findAncestorBlockInRegion(*block))
     return None;

   // Find the block information for the given `block.
   auto blockIt = blockNumbersOfExecution.find(block);
   if (blockIt == blockNumbersOfExecution.end())
     return None;
   const auto &blockInfo = blockIt->getSecond();

   // Override the number of region invocations with `1` if the
   // `perEntryOfThisRegion` region owns the block.
   auto getNumberOfExecutions = [&](const BlockNumberOfExecutionsInfo &info) {
     if (info.getBlock()->getParent() == perEntryOfThisRegion)
       return info.getNumberOfExecutions(/*numberOfRegionInvocations=*/1);
     return info.getNumberOfExecutions();
   };

   // Immediately return None if we do not know the block number of executions.
   auto blockExecutions = getNumberOfExecutions(blockInfo);
   if (!blockExecutions.hasValue())
     return None;

   // Follow parent operations until we reach the operations that owns the
   // `perEntryOfThisRegion`.
   int64_t numberOfExecutions = *blockExecutions;
   Operation *parentOp = block->getParentOp();

   while (parentOp != perEntryOfThisRegion->getParentOp()) {
     // Find how many times will be executed the block that owns the parent
     // operation.
     Block *parentBlock = parentOp->getBlock();

     auto parentBlockIt = blockNumbersOfExecution.find(parentBlock);
     if (parentBlockIt == blockNumbersOfExecution.end())
       return None;
     const auto &parentBlockInfo = parentBlockIt->getSecond();
     auto parentBlockExecutions = getNumberOfExecutions(parentBlockInfo);

     // We stumbled upon an operation with unknown number of executions.
     if (!parentBlockExecutions.hasValue())
       return None;

     // Number of block executions is a product of all parent blocks executions.
     numberOfExecutions *= *parentBlockExecutions;
     parentOp = parentOp->getParentOp();

     assert(parentOp != nullptr);
   }

   return numberOfExecutions;
 }

 void NumberOfExecutions::printBlockExecutions(
     raw_ostream &os, Region *perEntryOfThisRegion) const {
   unsigned blockId = 0;

   operation->walk<WalkOrder::PreOrder>([&](Block *block) {
     llvm::errs() << "Block: " << blockId++ << "\n";
     llvm::errs() << "Number of executions: ";
     if (auto n = getNumberOfExecutions(block, perEntryOfThisRegion))
       llvm::errs() << *n << "\n";
     else
       llvm::errs() << "<unknown>\n";
   });
 }

 void NumberOfExecutions::printOperationExecutions(
     raw_ostream &os, Region *perEntryOfThisRegion) const {
   operation->walk<WalkOrder::PreOrder>([&](Block *block) {
     block->walk([&](Operation *operation) {
       // Skip the operation that was used to build the analysis.
       if (operation == this->operation)
         return;

       llvm::errs() << "Operation: " << operation->getName() << "\n";
       llvm::errs() << "Number of executions: ";
       if (auto n = getNumberOfExecutions(operation, perEntryOfThisRegion))
         llvm::errs() << *n << "\n";
       else
         llvm::errs() << "<unknown>\n";
     });
   });
 }

 //===----------------------------------------------------------------------===//
 // BlockNumberOfExecutionsInfo
 //===----------------------------------------------------------------------===//

 BlockNumberOfExecutionsInfo::BlockNumberOfExecutionsInfo(
     Block *block, Optional<int64_t> numberOfRegionInvocations,
     Optional<int64_t> numberOfBlockExecutions)
     : block(block), numberOfRegionInvocations(numberOfRegionInvocations),
       numberOfBlockExecutions(numberOfBlockExecutions) {}

 Optional<int64_t> BlockNumberOfExecutionsInfo::getNumberOfExecutions() const {
   if (numberOfRegionInvocations && numberOfBlockExecutions)
     return *numberOfRegionInvocations * *numberOfBlockExecutions;
   return None;
 }

 Optional<int64_t> BlockNumberOfExecutionsInfo::getNumberOfExecutions(
     int64_t numberOfRegionInvocations) const {
   if (numberOfBlockExecutions)
     return numberOfRegionInvocations * *numberOfBlockExecutions;
   return None;
 }
	//===- NumberOfExecutions.cpp - Number of executions analysis -------------===//
	//
	// 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
	//
	//===----------------------------------------------------------------------===//
	//
	// Implementation of the number of executions analysis.
	//
	//===----------------------------------------------------------------------===//

	#include "mlir/Analysis/NumberOfExecutions.h"
	#include "mlir/IR/Matchers.h"
	#include "mlir/IR/RegionKindInterface.h"
	#include "mlir/Interfaces/ControlFlowInterfaces.h"

	#include "llvm/ADT/FunctionExtras.h"
	#include "llvm/ADT/SmallSet.h"
	#include "llvm/Support/raw_ostream.h"

	#define DEBUG_TYPE "number-of-executions-analysis"

	using namespace mlir;

	//===----------------------------------------------------------------------===//
	// NumberOfExecutions
	//===----------------------------------------------------------------------===//

	/// Computes blocks number of executions information for the given region.
	static void computeRegionBlockNumberOfExecutions(
	Region &region, DenseMap<Block *, BlockNumberOfExecutionsInfo> &blockInfo) {
	Operation *parentOp = region.getParentOp();
	int regionId = region.getRegionNumber();

	auto regionKindInterface = dyn_cast<RegionKindInterface>(parentOp);
	bool isGraphRegion =
	regionKindInterface &&
	regionKindInterface.getRegionKind(regionId) == RegionKind::Graph;

	// CFG analysis does not make sense for Graph regions, set the number of
	// executions for all blocks as unknown.
	if (isGraphRegion) {
	for (Block &block : region)
	blockInfo.insert({&block, {&block, None, None}});
	return;
	}

	// Number of region invocations for all attached regions.
	SmallVector<int64_t, 4> numRegionsInvocations;

	// Query RegionBranchOpInterface interface if it is available.
	if (auto regionInterface = dyn_cast<RegionBranchOpInterface>(parentOp)) {
	SmallVector<Attribute, 4> operands(parentOp->getNumOperands());
	for (auto operandIt : llvm::enumerate(parentOp->getOperands()))
	matchPattern(operandIt.value(), m_Constant(&operands[operandIt.index()]));

	regionInterface.getNumRegionInvocations(operands, numRegionsInvocations);
	}

	// Number of region invocations each time parent operation is invoked.
	Optional<int64_t> numRegionInvocations;

	if (!numRegionsInvocations.empty() &&
	numRegionsInvocations[regionId] != kUnknownNumRegionInvocations) {
	numRegionInvocations = numRegionsInvocations[regionId];
	}

	// DFS traversal looking for loops in the CFG.
	llvm::SmallSet<Block *, 4> loopStart;

	llvm::unique_function<void(Block , llvm::SmallSet<Block , 4> &)> dfs =
	[&](Block block, llvm::SmallSet<Block , 4> &visited) {
	// Found a loop in the CFG that starts at the `block`.
	if (visited.contains(block)) {
	loopStart.insert(block);
	return;
	}

	// Continue DFS traversal.
	visited.insert(block);
	for (Block *successor : block->getSuccessors())
	dfs(successor, visited);
	visited.erase(block);
	};

	llvm::SmallSet<Block *, 4> visited;
	dfs(&region.front(), visited);

	// Start from the entry block and follow only blocks with single succesor.
	Block *block = &region.front();
	while (block && !loopStart.contains(block)) {
	// Block will be executed exactly once.
	blockInfo.insert(
	{block, BlockNumberOfExecutionsInfo(block, numRegionInvocations,
	/numberOfBlockExecutions=/1)});

	// We reached the exit block or block with multiple successors.
	if (block->getNumSuccessors() != 1)
	break;

	// Continue traversal.
	block = block->getSuccessor(0);
	}

	// For all blocks that we did not visit set the executions number to unknown.
	for (Block &block : region)
	if (blockInfo.count(&block) == 0)
	blockInfo.insert({&block, BlockNumberOfExecutionsInfo(
	&block, numRegionInvocations,
	/numberOfBlockExecutions=/None)});
	}

	/// Creates a new NumberOfExecutions analysis that computes how many times a
	/// block within a region is executed for all associated regions.
	NumberOfExecutions::NumberOfExecutions(Operation *op) : operation(op) {
	operation->walk<WalkOrder::PreOrder>([&](Region *region) {
	computeRegionBlockNumberOfExecutions(*region, blockNumbersOfExecution);
	});
	}

	Optional<int64_t>
	NumberOfExecutions::getNumberOfExecutions(Operation *op,
	Region *perEntryOfThisRegion) const {
	// Assuming that all operations complete in a finite amount of time (do not
	// abort and do not go into the infinite loop), the number of operation
	// executions is equal to the number of block executions that contains the
	// operation.
	return getNumberOfExecutions(op->getBlock(), perEntryOfThisRegion);
	}

	Optional<int64_t>
	NumberOfExecutions::getNumberOfExecutions(Block *block,
	Region *perEntryOfThisRegion) const {
	// Return None if the given `block` does not lie inside the
	// `perEntryOfThisRegion` region.
	if (!perEntryOfThisRegion->findAncestorBlockInRegion(*block))
	return None;

	// Find the block information for the given `block.
	auto blockIt = blockNumbersOfExecution.find(block);
	if (blockIt == blockNumbersOfExecution.end())
	return None;
	const auto &blockInfo = blockIt->getSecond();

	// Override the number of region invocations with `1` if the
	// `perEntryOfThisRegion` region owns the block.
	auto getNumberOfExecutions = [&](const BlockNumberOfExecutionsInfo &info) {
	if (info.getBlock()->getParent() == perEntryOfThisRegion)
	return info.getNumberOfExecutions(/numberOfRegionInvocations=/1);
	return info.getNumberOfExecutions();
	};

	// Immediately return None if we do not know the block number of executions.
	auto blockExecutions = getNumberOfExecutions(blockInfo);
	if (!blockExecutions.hasValue())
	return None;

	// Follow parent operations until we reach the operations that owns the
	// `perEntryOfThisRegion`.
	int64_t numberOfExecutions = *blockExecutions;
	Operation *parentOp = block->getParentOp();

	while (parentOp != perEntryOfThisRegion->getParentOp()) {
	// Find how many times will be executed the block that owns the parent
	// operation.
	Block *parentBlock = parentOp->getBlock();

	auto parentBlockIt = blockNumbersOfExecution.find(parentBlock);
	if (parentBlockIt == blockNumbersOfExecution.end())
	return None;
	const auto &parentBlockInfo = parentBlockIt->getSecond();
	auto parentBlockExecutions = getNumberOfExecutions(parentBlockInfo);

	// We stumbled upon an operation with unknown number of executions.
	if (!parentBlockExecutions.hasValue())
	return None;

	// Number of block executions is a product of all parent blocks executions.
	numberOfExecutions = parentBlockExecutions;
	parentOp = parentOp->getParentOp();

	assert(parentOp != nullptr);
	}

	return numberOfExecutions;
	}

	void NumberOfExecutions::printBlockExecutions(
	raw_ostream &os, Region *perEntryOfThisRegion) const {
	unsigned blockId = 0;

	operation->walk<WalkOrder::PreOrder>([&](Block *block) {
	llvm::errs() << "Block: " << blockId++ << "\n";
	llvm::errs() << "Number of executions: ";
	if (auto n = getNumberOfExecutions(block, perEntryOfThisRegion))
	llvm::errs() << *n << "\n";
	else
	llvm::errs() << "<unknown>\n";
	});
	}

	void NumberOfExecutions::printOperationExecutions(
	raw_ostream &os, Region *perEntryOfThisRegion) const {
	operation->walk<WalkOrder::PreOrder>([&](Block *block) {
	block->walk([&](Operation *operation) {
	// Skip the operation that was used to build the analysis.
	if (operation == this->operation)
	return;

	llvm::errs() << "Operation: " << operation->getName() << "\n";
	llvm::errs() << "Number of executions: ";
	if (auto n = getNumberOfExecutions(operation, perEntryOfThisRegion))
	llvm::errs() << *n << "\n";
	else
	llvm::errs() << "<unknown>\n";
	});
	});
	}

	//===----------------------------------------------------------------------===//
	// BlockNumberOfExecutionsInfo
	//===----------------------------------------------------------------------===//

	BlockNumberOfExecutionsInfo::BlockNumberOfExecutionsInfo(
	Block *block, Optional<int64_t> numberOfRegionInvocations,
	Optional<int64_t> numberOfBlockExecutions)
	: block(block), numberOfRegionInvocations(numberOfRegionInvocations),
	numberOfBlockExecutions(numberOfBlockExecutions) {}

	Optional<int64_t> BlockNumberOfExecutionsInfo::getNumberOfExecutions() const {
	if (numberOfRegionInvocations && numberOfBlockExecutions)
	return numberOfRegionInvocations *numberOfBlockExecutions;
	return None;
	}

	Optional<int64_t> BlockNumberOfExecutionsInfo::getNumberOfExecutions(
	int64_t numberOfRegionInvocations) const {
	if (numberOfBlockExecutions)
	return numberOfRegionInvocations * *numberOfBlockExecutions;
	return None;
	}