//===- FoldUtils.cpp ---- Fold Utilities ----------------------------------===// // // 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 // //===----------------------------------------------------------------------===// // // This file defines various operation fold utilities. These utilities are // intended to be used by passes to unify and simply their logic. // //===----------------------------------------------------------------------===// #include "mlir/Transforms/FoldUtils.h" #include "mlir/IR/Builders.h" #include "mlir/IR/Matchers.h" #include "mlir/IR/Operation.h" using namespace mlir; /// Given an operation, find the parent region that folded constants should be /// inserted into. static Region * getInsertionRegion(DialectInterfaceCollection &interfaces, Block *insertionBlock) { while (Region *region = insertionBlock->getParent()) { // Insert in this region for any of the following scenarios: // * The parent is unregistered, or is known to be isolated from above. // * The parent is a top-level operation. auto *parentOp = region->getParentOp(); if (parentOp->mightHaveTrait() || !parentOp->getBlock()) return region; // Otherwise, check if this region is a desired insertion region. auto *interface = interfaces.getInterfaceFor(parentOp); if (LLVM_UNLIKELY(interface && interface->shouldMaterializeInto(region))) return region; // Traverse up the parent looking for an insertion region. insertionBlock = parentOp->getBlock(); } llvm_unreachable("expected valid insertion region"); } /// A utility function used to materialize a constant for a given attribute and /// type. On success, a valid constant value is returned. Otherwise, null is /// returned static Operation *materializeConstant(Dialect *dialect, OpBuilder &builder, Attribute value, Type type, Location loc) { auto insertPt = builder.getInsertionPoint(); (void)insertPt; // Ask the dialect to materialize a constant operation for this value. if (auto *constOp = dialect->materializeConstant(builder, value, type, loc)) { assert(insertPt == builder.getInsertionPoint()); assert(matchPattern(constOp, m_Constant())); return constOp; } return nullptr; } //===----------------------------------------------------------------------===// // OperationFolder //===----------------------------------------------------------------------===// LogicalResult OperationFolder::tryToFold(Operation *op, bool *inPlaceUpdate) { if (inPlaceUpdate) *inPlaceUpdate = false; // If this is a unique'd constant, return failure as we know that it has // already been folded. if (isFolderOwnedConstant(op)) { // Check to see if we should rehoist, i.e. if a non-constant operation was // inserted before this one. Block *opBlock = op->getBlock(); if (&opBlock->front() != op && !isFolderOwnedConstant(op->getPrevNode())) { op->moveBefore(&opBlock->front()); op->setLoc(erasedFoldedLocation); } return failure(); } // Try to fold the operation. SmallVector results; if (failed(tryToFold(op, results))) return failure(); // Check to see if the operation was just updated in place. if (results.empty()) { if (inPlaceUpdate) *inPlaceUpdate = true; if (auto *rewriteListener = dyn_cast_if_present( rewriter.getListener())) { // Folding API does not notify listeners, so we have to notify manually. rewriteListener->notifyOperationModified(op); } return success(); } // Constant folding succeeded. Replace all of the result values and erase the // operation. notifyRemoval(op); rewriter.replaceOp(op, results); return success(); } bool OperationFolder::insertKnownConstant(Operation *op, Attribute constValue) { Block *opBlock = op->getBlock(); // If this is a constant we unique'd, we don't need to insert, but we can // check to see if we should rehoist it. if (isFolderOwnedConstant(op)) { if (&opBlock->front() != op && !isFolderOwnedConstant(op->getPrevNode())) { op->moveBefore(&opBlock->front()); op->setLoc(erasedFoldedLocation); } return true; } // Get the constant value of the op if necessary. if (!constValue) { matchPattern(op, m_Constant(&constValue)); assert(constValue && "expected `op` to be a constant"); } else { // Ensure that the provided constant was actually correct. #ifndef NDEBUG Attribute expectedValue; matchPattern(op, m_Constant(&expectedValue)); assert( expectedValue == constValue && "provided constant value was not the expected value of the constant"); #endif } // Check for an existing constant operation for the attribute value. Region *insertRegion = getInsertionRegion(interfaces, opBlock); auto &uniquedConstants = foldScopes[insertRegion]; Operation *&folderConstOp = uniquedConstants[std::make_tuple( op->getDialect(), constValue, *op->result_type_begin())]; // If there is an existing constant, replace `op`. if (folderConstOp) { notifyRemoval(op); rewriter.replaceOp(op, folderConstOp->getResults()); folderConstOp->setLoc(erasedFoldedLocation); return false; } // Otherwise, we insert `op`. If `op` is in the insertion block and is either // already at the front of the block, or the previous operation is already a // constant we unique'd (i.e. one we inserted), then we don't need to do // anything. Otherwise, we move the constant to the insertion block. Block *insertBlock = &insertRegion->front(); if (opBlock != insertBlock || (&insertBlock->front() != op && !isFolderOwnedConstant(op->getPrevNode()))) { op->moveBefore(&insertBlock->front()); op->setLoc(erasedFoldedLocation); } folderConstOp = op; referencedDialects[op].push_back(op->getDialect()); return true; } /// Notifies that the given constant `op` should be remove from this /// OperationFolder's internal bookkeeping. void OperationFolder::notifyRemoval(Operation *op) { // Check to see if this operation is uniqued within the folder. auto it = referencedDialects.find(op); if (it == referencedDialects.end()) return; // Get the constant value for this operation, this is the value that was used // to unique the operation internally. Attribute constValue; matchPattern(op, m_Constant(&constValue)); assert(constValue); // Get the constant map that this operation was uniqued in. auto &uniquedConstants = foldScopes[getInsertionRegion(interfaces, op->getBlock())]; // Erase all of the references to this operation. auto type = op->getResult(0).getType(); for (auto *dialect : it->second) uniquedConstants.erase(std::make_tuple(dialect, constValue, type)); referencedDialects.erase(it); } /// Clear out any constants cached inside of the folder. void OperationFolder::clear() { foldScopes.clear(); referencedDialects.clear(); } /// Get or create a constant using the given builder. On success this returns /// the constant operation, nullptr otherwise. Value OperationFolder::getOrCreateConstant(Block *block, Dialect *dialect, Attribute value, Type type) { // Find an insertion point for the constant. auto *insertRegion = getInsertionRegion(interfaces, block); auto &entry = insertRegion->front(); rewriter.setInsertionPoint(&entry, entry.begin()); // Get the constant map for the insertion region of this operation. // Use erased location since the op is being built at the front of block. auto &uniquedConstants = foldScopes[insertRegion]; Operation *constOp = tryGetOrCreateConstant(uniquedConstants, dialect, value, type, erasedFoldedLocation); return constOp ? constOp->getResult(0) : Value(); } bool OperationFolder::isFolderOwnedConstant(Operation *op) const { return referencedDialects.count(op); } /// Tries to perform folding on the given `op`. If successful, populates /// `results` with the results of the folding. LogicalResult OperationFolder::tryToFold(Operation *op, SmallVectorImpl &results) { SmallVector foldResults; if (failed(op->fold(foldResults)) || failed(processFoldResults(op, results, foldResults))) return failure(); return success(); } LogicalResult OperationFolder::processFoldResults(Operation *op, SmallVectorImpl &results, ArrayRef foldResults) { // Check to see if the operation was just updated in place. if (foldResults.empty()) return success(); assert(foldResults.size() == op->getNumResults()); // Create a builder to insert new operations into the entry block of the // insertion region. auto *insertRegion = getInsertionRegion(interfaces, op->getBlock()); auto &entry = insertRegion->front(); rewriter.setInsertionPoint(&entry, entry.begin()); // Get the constant map for the insertion region of this operation. auto &uniquedConstants = foldScopes[insertRegion]; // Create the result constants and replace the results. auto *dialect = op->getDialect(); for (unsigned i = 0, e = op->getNumResults(); i != e; ++i) { assert(!foldResults[i].isNull() && "expected valid OpFoldResult"); // Check if the result was an SSA value. if (auto repl = llvm::dyn_cast_if_present(foldResults[i])) { results.emplace_back(repl); continue; } // Check to see if there is a canonicalized version of this constant. auto res = op->getResult(i); Attribute attrRepl = foldResults[i].get(); if (auto *constOp = tryGetOrCreateConstant(uniquedConstants, dialect, attrRepl, res.getType(), erasedFoldedLocation)) { // Ensure that this constant dominates the operation we are replacing it // with. This may not automatically happen if the operation being folded // was inserted before the constant within the insertion block. Block *opBlock = op->getBlock(); if (opBlock == constOp->getBlock() && &opBlock->front() != constOp) constOp->moveBefore(&opBlock->front()); results.push_back(constOp->getResult(0)); continue; } // If materialization fails, cleanup any operations generated for the // previous results and return failure. for (Operation &op : llvm::make_early_inc_range( llvm::make_range(entry.begin(), rewriter.getInsertionPoint()))) { notifyRemoval(&op); rewriter.eraseOp(&op); } results.clear(); return failure(); } return success(); } /// Try to get or create a new constant entry. On success this returns the /// constant operation value, nullptr otherwise. Operation * OperationFolder::tryGetOrCreateConstant(ConstantMap &uniquedConstants, Dialect *dialect, Attribute value, Type type, Location loc) { // Check if an existing mapping already exists. auto constKey = std::make_tuple(dialect, value, type); Operation *&constOp = uniquedConstants[constKey]; if (constOp) { if (loc != constOp->getLoc()) constOp->setLoc(erasedFoldedLocation); return constOp; } // If one doesn't exist, try to materialize one. if (!(constOp = materializeConstant(dialect, rewriter, value, type, loc))) return nullptr; // Check to see if the generated constant is in the expected dialect. auto *newDialect = constOp->getDialect(); if (newDialect == dialect) { referencedDialects[constOp].push_back(dialect); return constOp; } // If it isn't, then we also need to make sure that the mapping for the new // dialect is valid. auto newKey = std::make_tuple(newDialect, value, type); // If an existing operation in the new dialect already exists, delete the // materialized operation in favor of the existing one. if (auto *existingOp = uniquedConstants.lookup(newKey)) { notifyRemoval(constOp); rewriter.eraseOp(constOp); referencedDialects[existingOp].push_back(dialect); if (loc != existingOp->getLoc()) existingOp->setLoc(erasedFoldedLocation); return constOp = existingOp; } // Otherwise, update the new dialect to the materialized operation. referencedDialects[constOp].assign({dialect, newDialect}); auto newIt = uniquedConstants.insert({newKey, constOp}); return newIt.first->second; }