mlir/lib/Analysis/SliceWalk.cpp - mirrors/github.com/llvm/llvm-project - Git at Google

 #include "mlir/Analysis/SliceWalk.h"
 #include "mlir/Interfaces/ControlFlowInterfaces.h"

 using namespace mlir;

 WalkContinuation mlir::walkSlice(ValueRange rootValues,
                                  WalkCallback walkCallback) {
   // Search the backward slice starting from the root values.
   SmallVector<Value> workList = rootValues;
   llvm::SmallDenseSet<Value, 16> seenValues;
   while (!workList.empty()) {
     // Search the backward slice of the current value.
     Value current = workList.pop_back_val();

     // Skip the current value if it has already been seen.
     if (!seenValues.insert(current).second)
       continue;

     // Call the walk callback with the current value.
     WalkContinuation continuation = walkCallback(current);
     if (continuation.wasInterrupted())
       return continuation;
     if (continuation.wasSkipped())
       continue;

     assert(continuation.wasAdvancedTo());
     // Add the next values to the work list if the walk should continue.
     workList.append(continuation.getNextValues().begin(),
                     continuation.getNextValues().end());
   }

   return WalkContinuation::skip();
 }

 /// Returns the predecessor branch operands that match `blockArg`, or nullopt if
 /// some of the predecessor terminators do not implement the BranchOpInterface.
 static std::optional<SmallVector<Value>>
 getBlockPredecessorOperands(BlockArgument blockArg) {
   Block *block = blockArg.getOwner();

   // Search the predecessor operands for all predecessor terminators.
   SmallVector<Value> predecessorOperands;
   for (auto it = block->pred_begin(); it != block->pred_end(); ++it) {
     Block *predecessor = *it;
     auto branchOp = dyn_cast<BranchOpInterface>(predecessor->getTerminator());
     if (!branchOp)
       return std::nullopt;
     SuccessorOperands successorOperands =
         branchOp.getSuccessorOperands(it.getSuccessorIndex());
     // Store the predecessor operand if the block argument matches an operand
     // and is not produced by the terminator.
     if (Value operand = successorOperands[blockArg.getArgNumber()])
       predecessorOperands.push_back(operand);
   }

   return predecessorOperands;
 }

 std::optional<SmallVector<Value>>
 mlir::getControlFlowPredecessors(Value value) {
   if (OpResult opResult = dyn_cast<OpResult>(value)) {
     if (auto selectOp = opResult.getDefiningOp<SelectLikeOpInterface>())
       return SmallVector<Value>(
           {selectOp.getTrueValue(), selectOp.getFalseValue()});
     auto regionOp = opResult.getDefiningOp<RegionBranchOpInterface>();
     // If the interface is not implemented, there are no control flow
     // predecessors to work with.
     if (!regionOp)
       return std::nullopt;
     // Add the control flow predecessor operands to the work list.
     RegionSuccessor region = RegionSuccessor::parent(regionOp->getResults());
     SmallVector<Value> predecessorOperands;
     // TODO (#175168): This assumes that there are no non-successor-inputs
     // in front of the op result.
     regionOp.getPredecessorValues(region, opResult.getResultNumber(),
                                   predecessorOperands);
     return predecessorOperands;
   }

   auto blockArg = cast<BlockArgument>(value);
   Block *block = blockArg.getOwner();
   // Search the region predecessor operands for structured control flow.
   if (block->isEntryBlock()) {
     if (auto regionBranchOp =
             dyn_cast<RegionBranchOpInterface>(block->getParentOp())) {
       RegionSuccessor region(blockArg.getParentRegion());
       SmallVector<Value> predecessorOperands;
       // TODO (#175168): This assumes that there are no non-successor-inputs
       // in front of the block argument.
       regionBranchOp.getPredecessorValues(region, blockArg.getArgNumber(),
                                           predecessorOperands);
       return predecessorOperands;
     }
     // If the interface is not implemented, there are no control flow
     // predecessors to work with.
     return std::nullopt;
   }

   // Search the block predecessor operands for unstructured control flow.
   return getBlockPredecessorOperands(blockArg);
 }
	#include "mlir/Analysis/SliceWalk.h"
	#include "mlir/Interfaces/ControlFlowInterfaces.h"

	using namespace mlir;

	WalkContinuation mlir::walkSlice(ValueRange rootValues,
	WalkCallback walkCallback) {
	// Search the backward slice starting from the root values.
	SmallVector<Value> workList = rootValues;
	llvm::SmallDenseSet<Value, 16> seenValues;
	while (!workList.empty()) {
	// Search the backward slice of the current value.
	Value current = workList.pop_back_val();

	// Skip the current value if it has already been seen.
	if (!seenValues.insert(current).second)
	continue;

	// Call the walk callback with the current value.
	WalkContinuation continuation = walkCallback(current);
	if (continuation.wasInterrupted())
	return continuation;
	if (continuation.wasSkipped())
	continue;

	assert(continuation.wasAdvancedTo());
	// Add the next values to the work list if the walk should continue.
	workList.append(continuation.getNextValues().begin(),
	continuation.getNextValues().end());
	}

	return WalkContinuation::skip();
	}

	/// Returns the predecessor branch operands that match `blockArg`, or nullopt if
	/// some of the predecessor terminators do not implement the BranchOpInterface.
	static std::optional<SmallVector<Value>>
	getBlockPredecessorOperands(BlockArgument blockArg) {
	Block *block = blockArg.getOwner();

	// Search the predecessor operands for all predecessor terminators.
	SmallVector<Value> predecessorOperands;
	for (auto it = block->pred_begin(); it != block->pred_end(); ++it) {
	Block predecessor = it;
	auto branchOp = dyn_cast<BranchOpInterface>(predecessor->getTerminator());
	if (!branchOp)
	return std::nullopt;
	SuccessorOperands successorOperands =
	branchOp.getSuccessorOperands(it.getSuccessorIndex());
	// Store the predecessor operand if the block argument matches an operand
	// and is not produced by the terminator.
	if (Value operand = successorOperands[blockArg.getArgNumber()])
	predecessorOperands.push_back(operand);
	}

	return predecessorOperands;
	}

	std::optional<SmallVector<Value>>
	mlir::getControlFlowPredecessors(Value value) {
	if (OpResult opResult = dyn_cast<OpResult>(value)) {
	if (auto selectOp = opResult.getDefiningOp<SelectLikeOpInterface>())
	return SmallVector<Value>(
	{selectOp.getTrueValue(), selectOp.getFalseValue()});
	auto regionOp = opResult.getDefiningOp<RegionBranchOpInterface>();
	// If the interface is not implemented, there are no control flow
	// predecessors to work with.
	if (!regionOp)
	return std::nullopt;
	// Add the control flow predecessor operands to the work list.
	RegionSuccessor region = RegionSuccessor::parent(regionOp->getResults());
	SmallVector<Value> predecessorOperands;
	// TODO (#175168): This assumes that there are no non-successor-inputs
	// in front of the op result.
	regionOp.getPredecessorValues(region, opResult.getResultNumber(),
	predecessorOperands);
	return predecessorOperands;
	}

	auto blockArg = cast<BlockArgument>(value);
	Block *block = blockArg.getOwner();
	// Search the region predecessor operands for structured control flow.
	if (block->isEntryBlock()) {
	if (auto regionBranchOp =
	dyn_cast<RegionBranchOpInterface>(block->getParentOp())) {
	RegionSuccessor region(blockArg.getParentRegion());
	SmallVector<Value> predecessorOperands;
	// TODO (#175168): This assumes that there are no non-successor-inputs
	// in front of the block argument.
	regionBranchOp.getPredecessorValues(region, blockArg.getArgNumber(),
	predecessorOperands);
	return predecessorOperands;
	}
	// If the interface is not implemented, there are no control flow
	// predecessors to work with.
	return std::nullopt;
	}

	// Search the block predecessor operands for unstructured control flow.
	return getBlockPredecessorOperands(blockArg);
	}