1b6eb26fdSRiver Riddle //===- DialectConversion.cpp - MLIR dialect conversion generic pass -------===// 2b6eb26fdSRiver Riddle // 3b6eb26fdSRiver Riddle // Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions. 4b6eb26fdSRiver Riddle // See https://llvm.org/LICENSE.txt for license information. 5b6eb26fdSRiver Riddle // SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception 6b6eb26fdSRiver Riddle // 7b6eb26fdSRiver Riddle //===----------------------------------------------------------------------===// 8b6eb26fdSRiver Riddle 9b6eb26fdSRiver Riddle #include "mlir/Transforms/DialectConversion.h" 10b6eb26fdSRiver Riddle #include "mlir/IR/Block.h" 11b6eb26fdSRiver Riddle #include "mlir/IR/Builders.h" 1265fcddffSRiver Riddle #include "mlir/IR/BuiltinOps.h" 137ceffae1SRiver Riddle #include "mlir/IR/FunctionInterfaces.h" 144d67b278SJeff Niu #include "mlir/IR/IRMapping.h" 15b6eb26fdSRiver Riddle #include "mlir/Rewrite/PatternApplicator.h" 169c5982efSAlex Zinenko #include "llvm/ADT/ScopeExit.h" 17b6eb26fdSRiver Riddle #include "llvm/ADT/SetVector.h" 18b6eb26fdSRiver Riddle #include "llvm/ADT/SmallPtrSet.h" 19b6eb26fdSRiver Riddle #include "llvm/Support/Debug.h" 20b6eb26fdSRiver Riddle #include "llvm/Support/FormatVariadic.h" 21b6eb26fdSRiver Riddle #include "llvm/Support/SaveAndRestore.h" 22b6eb26fdSRiver Riddle #include "llvm/Support/ScopedPrinter.h" 2305423905SKazu Hirata #include <optional> 24b6eb26fdSRiver Riddle 25b6eb26fdSRiver Riddle using namespace mlir; 26b6eb26fdSRiver Riddle using namespace mlir::detail; 27b6eb26fdSRiver Riddle 28b6eb26fdSRiver Riddle #define DEBUG_TYPE "dialect-conversion" 29b6eb26fdSRiver Riddle 30b6eb26fdSRiver Riddle /// Recursively collect all of the operations to convert from within 'region'. 31b6eb26fdSRiver Riddle /// If 'target' is nonnull, operations that are recursively legal have their 32b6eb26fdSRiver Riddle /// regions pre-filtered to avoid considering them for legalization. 33b6eb26fdSRiver Riddle static LogicalResult 34b6eb26fdSRiver Riddle computeConversionSet(iterator_range<Region::iterator> region, 35015192c6SRiver Riddle Location regionLoc, 36015192c6SRiver Riddle SmallVectorImpl<Operation *> &toConvert, 37b6eb26fdSRiver Riddle ConversionTarget *target = nullptr) { 38f55ed889SKazu Hirata if (region.empty()) 39b6eb26fdSRiver Riddle return success(); 40b6eb26fdSRiver Riddle 41b6eb26fdSRiver Riddle // Traverse starting from the entry block. 42b6eb26fdSRiver Riddle SmallVector<Block *, 16> worklist(1, &*region.begin()); 43b6eb26fdSRiver Riddle DenseSet<Block *> visitedBlocks; 44b6eb26fdSRiver Riddle visitedBlocks.insert(worklist.front()); 45b6eb26fdSRiver Riddle while (!worklist.empty()) { 46b6eb26fdSRiver Riddle Block *block = worklist.pop_back_val(); 47b6eb26fdSRiver Riddle 48b6eb26fdSRiver Riddle // Compute the conversion set of each of the nested operations. 49b6eb26fdSRiver Riddle for (Operation &op : *block) { 50b6eb26fdSRiver Riddle toConvert.emplace_back(&op); 51b6eb26fdSRiver Riddle 52b6eb26fdSRiver Riddle // Don't check this operation's children for conversion if the operation 53b6eb26fdSRiver Riddle // is recursively legal. 540de16fafSRamkumar Ramachandra auto legalityInfo = 550de16fafSRamkumar Ramachandra target ? target->isLegal(&op) 560de16fafSRamkumar Ramachandra : std::optional<ConversionTarget::LegalOpDetails>(); 57b6eb26fdSRiver Riddle if (legalityInfo && legalityInfo->isRecursivelyLegal) 58b6eb26fdSRiver Riddle continue; 59b6eb26fdSRiver Riddle for (auto ®ion : op.getRegions()) { 60b6eb26fdSRiver Riddle if (failed(computeConversionSet(region.getBlocks(), region.getLoc(), 61b6eb26fdSRiver Riddle toConvert, target))) 62b6eb26fdSRiver Riddle return failure(); 63b6eb26fdSRiver Riddle } 64b6eb26fdSRiver Riddle } 65b6eb26fdSRiver Riddle 66b6eb26fdSRiver Riddle // Recurse to children that haven't been visited. 67b6eb26fdSRiver Riddle for (Block *succ : block->getSuccessors()) 68b6eb26fdSRiver Riddle if (visitedBlocks.insert(succ).second) 69b6eb26fdSRiver Riddle worklist.push_back(succ); 70b6eb26fdSRiver Riddle } 71b6eb26fdSRiver Riddle 72b6eb26fdSRiver Riddle // Check that all blocks in the region were visited. 73b6eb26fdSRiver Riddle if (llvm::any_of(llvm::drop_begin(region, 1), 74b6eb26fdSRiver Riddle [&](Block &block) { return !visitedBlocks.count(&block); })) 75b6eb26fdSRiver Riddle return emitError(regionLoc, "unreachable blocks were not converted"); 76b6eb26fdSRiver Riddle return success(); 77b6eb26fdSRiver Riddle } 78b6eb26fdSRiver Riddle 79b6eb26fdSRiver Riddle /// A utility function to log a successful result for the given reason. 80b6eb26fdSRiver Riddle template <typename... Args> 814efb7754SRiver Riddle static void logSuccess(llvm::ScopedPrinter &os, StringRef fmt, Args &&...args) { 82b6eb26fdSRiver Riddle LLVM_DEBUG({ 83b6eb26fdSRiver Riddle os.unindent(); 84b6eb26fdSRiver Riddle os.startLine() << "} -> SUCCESS"; 85b6eb26fdSRiver Riddle if (!fmt.empty()) 86b6eb26fdSRiver Riddle os.getOStream() << " : " 87b6eb26fdSRiver Riddle << llvm::formatv(fmt.data(), std::forward<Args>(args)...); 88b6eb26fdSRiver Riddle os.getOStream() << "\n"; 89b6eb26fdSRiver Riddle }); 90b6eb26fdSRiver Riddle } 91b6eb26fdSRiver Riddle 92b6eb26fdSRiver Riddle /// A utility function to log a failure result for the given reason. 93b6eb26fdSRiver Riddle template <typename... Args> 944efb7754SRiver Riddle static void logFailure(llvm::ScopedPrinter &os, StringRef fmt, Args &&...args) { 95b6eb26fdSRiver Riddle LLVM_DEBUG({ 96b6eb26fdSRiver Riddle os.unindent(); 97b6eb26fdSRiver Riddle os.startLine() << "} -> FAILURE : " 98b6eb26fdSRiver Riddle << llvm::formatv(fmt.data(), std::forward<Args>(args)...) 99b6eb26fdSRiver Riddle << "\n"; 100b6eb26fdSRiver Riddle }); 101b6eb26fdSRiver Riddle } 102b6eb26fdSRiver Riddle 103b6eb26fdSRiver Riddle //===----------------------------------------------------------------------===// 104b6eb26fdSRiver Riddle // ConversionValueMapping 105b6eb26fdSRiver Riddle //===----------------------------------------------------------------------===// 106b6eb26fdSRiver Riddle 107b6eb26fdSRiver Riddle namespace { 1084d67b278SJeff Niu /// This class wraps a IRMapping to provide recursive lookup 109b6eb26fdSRiver Riddle /// functionality, i.e. we will traverse if the mapped value also has a mapping. 110b6eb26fdSRiver Riddle struct ConversionValueMapping { 111b6eb26fdSRiver Riddle /// Lookup a mapped value within the map. If a mapping for the provided value 1129ca67d7fSAlexander Belyaev /// does not exist then return the provided value. If `desiredType` is 1139ca67d7fSAlexander Belyaev /// non-null, returns the most recently mapped value with that type. If an 1149ca67d7fSAlexander Belyaev /// operand of that type does not exist, defaults to normal behavior. 1159ca67d7fSAlexander Belyaev Value lookupOrDefault(Value from, Type desiredType = nullptr) const; 116b6eb26fdSRiver Riddle 117b6eb26fdSRiver Riddle /// Lookup a mapped value within the map, or return null if a mapping does not 118b6eb26fdSRiver Riddle /// exist. If a mapping exists, this follows the same behavior of 119b6eb26fdSRiver Riddle /// `lookupOrDefault`. 120015192c6SRiver Riddle Value lookupOrNull(Value from, Type desiredType = nullptr) const; 121b6eb26fdSRiver Riddle 122b6eb26fdSRiver Riddle /// Map a value to the one provided. 123015192c6SRiver Riddle void map(Value oldVal, Value newVal) { 124015192c6SRiver Riddle LLVM_DEBUG({ 125015192c6SRiver Riddle for (Value it = newVal; it; it = mapping.lookupOrNull(it)) 126015192c6SRiver Riddle assert(it != oldVal && "inserting cyclic mapping"); 127015192c6SRiver Riddle }); 128015192c6SRiver Riddle mapping.map(oldVal, newVal); 129015192c6SRiver Riddle } 130015192c6SRiver Riddle 131015192c6SRiver Riddle /// Try to map a value to the one provided. Returns false if a transitive 132015192c6SRiver Riddle /// mapping from the new value to the old value already exists, true if the 133015192c6SRiver Riddle /// map was updated. 134015192c6SRiver Riddle bool tryMap(Value oldVal, Value newVal); 135b6eb26fdSRiver Riddle 136b6eb26fdSRiver Riddle /// Drop the last mapping for the given value. 137b6eb26fdSRiver Riddle void erase(Value value) { mapping.erase(value); } 138b6eb26fdSRiver Riddle 1395b91060dSAlex Zinenko /// Returns the inverse raw value mapping (without recursive query support). 140015192c6SRiver Riddle DenseMap<Value, SmallVector<Value>> getInverse() const { 141015192c6SRiver Riddle DenseMap<Value, SmallVector<Value>> inverse; 142015192c6SRiver Riddle for (auto &it : mapping.getValueMap()) 143015192c6SRiver Riddle inverse[it.second].push_back(it.first); 144015192c6SRiver Riddle return inverse; 145015192c6SRiver Riddle } 1465b91060dSAlex Zinenko 147b6eb26fdSRiver Riddle private: 148b6eb26fdSRiver Riddle /// Current value mappings. 1494d67b278SJeff Niu IRMapping mapping; 150b6eb26fdSRiver Riddle }; 151be0a7e9fSMehdi Amini } // namespace 152b6eb26fdSRiver Riddle 1539ca67d7fSAlexander Belyaev Value ConversionValueMapping::lookupOrDefault(Value from, 1549ca67d7fSAlexander Belyaev Type desiredType) const { 1559ca67d7fSAlexander Belyaev // If there was no desired type, simply find the leaf value. 1569ca67d7fSAlexander Belyaev if (!desiredType) { 157b6eb26fdSRiver Riddle // If this value had a valid mapping, unmap that value as well in the case 158b6eb26fdSRiver Riddle // that it was also replaced. 159b6eb26fdSRiver Riddle while (auto mappedValue = mapping.lookupOrNull(from)) 160b6eb26fdSRiver Riddle from = mappedValue; 161b6eb26fdSRiver Riddle return from; 162b6eb26fdSRiver Riddle } 163b6eb26fdSRiver Riddle 1649ca67d7fSAlexander Belyaev // Otherwise, try to find the deepest value that has the desired type. 1659ca67d7fSAlexander Belyaev Value desiredValue; 166b6eb26fdSRiver Riddle do { 1679ca67d7fSAlexander Belyaev if (from.getType() == desiredType) 1689ca67d7fSAlexander Belyaev desiredValue = from; 169b6eb26fdSRiver Riddle 170b6eb26fdSRiver Riddle Value mappedValue = mapping.lookupOrNull(from); 171b6eb26fdSRiver Riddle if (!mappedValue) 172b6eb26fdSRiver Riddle break; 173b6eb26fdSRiver Riddle from = mappedValue; 174b6eb26fdSRiver Riddle } while (true); 175b6eb26fdSRiver Riddle 176b6eb26fdSRiver Riddle // If the desired value was found use it, otherwise default to the leaf value. 1779ca67d7fSAlexander Belyaev return desiredValue ? desiredValue : from; 178b6eb26fdSRiver Riddle } 179b6eb26fdSRiver Riddle 180015192c6SRiver Riddle Value ConversionValueMapping::lookupOrNull(Value from, Type desiredType) const { 181015192c6SRiver Riddle Value result = lookupOrDefault(from, desiredType); 182015192c6SRiver Riddle if (result == from || (desiredType && result.getType() != desiredType)) 183015192c6SRiver Riddle return nullptr; 184015192c6SRiver Riddle return result; 185015192c6SRiver Riddle } 186015192c6SRiver Riddle 187015192c6SRiver Riddle bool ConversionValueMapping::tryMap(Value oldVal, Value newVal) { 188015192c6SRiver Riddle for (Value it = newVal; it; it = mapping.lookupOrNull(it)) 189015192c6SRiver Riddle if (it == oldVal) 190015192c6SRiver Riddle return false; 191015192c6SRiver Riddle map(oldVal, newVal); 192015192c6SRiver Riddle return true; 193b6eb26fdSRiver Riddle } 194b6eb26fdSRiver Riddle 195b6eb26fdSRiver Riddle //===----------------------------------------------------------------------===// 19601b55f16SRiver Riddle // Rewriter and Translation State 19701b55f16SRiver Riddle //===----------------------------------------------------------------------===// 19801b55f16SRiver Riddle namespace { 19901b55f16SRiver Riddle /// This class contains a snapshot of the current conversion rewriter state. 20001b55f16SRiver Riddle /// This is useful when saving and undoing a set of rewrites. 20101b55f16SRiver Riddle struct RewriterState { 202015192c6SRiver Riddle RewriterState(unsigned numCreatedOps, unsigned numUnresolvedMaterializations, 203015192c6SRiver Riddle unsigned numReplacements, unsigned numArgReplacements, 204015192c6SRiver Riddle unsigned numBlockActions, unsigned numIgnoredOperations, 205015192c6SRiver Riddle unsigned numRootUpdates) 206015192c6SRiver Riddle : numCreatedOps(numCreatedOps), 207015192c6SRiver Riddle numUnresolvedMaterializations(numUnresolvedMaterializations), 208015192c6SRiver Riddle numReplacements(numReplacements), 20901b55f16SRiver Riddle numArgReplacements(numArgReplacements), 21001b55f16SRiver Riddle numBlockActions(numBlockActions), 21101b55f16SRiver Riddle numIgnoredOperations(numIgnoredOperations), 21201b55f16SRiver Riddle numRootUpdates(numRootUpdates) {} 21301b55f16SRiver Riddle 21401b55f16SRiver Riddle /// The current number of created operations. 21501b55f16SRiver Riddle unsigned numCreatedOps; 21601b55f16SRiver Riddle 217015192c6SRiver Riddle /// The current number of unresolved materializations. 218015192c6SRiver Riddle unsigned numUnresolvedMaterializations; 219015192c6SRiver Riddle 22001b55f16SRiver Riddle /// The current number of replacements queued. 22101b55f16SRiver Riddle unsigned numReplacements; 22201b55f16SRiver Riddle 22301b55f16SRiver Riddle /// The current number of argument replacements queued. 22401b55f16SRiver Riddle unsigned numArgReplacements; 22501b55f16SRiver Riddle 22601b55f16SRiver Riddle /// The current number of block actions performed. 22701b55f16SRiver Riddle unsigned numBlockActions; 22801b55f16SRiver Riddle 22901b55f16SRiver Riddle /// The current number of ignored operations. 23001b55f16SRiver Riddle unsigned numIgnoredOperations; 23101b55f16SRiver Riddle 23201b55f16SRiver Riddle /// The current number of operations that were updated in place. 23301b55f16SRiver Riddle unsigned numRootUpdates; 23401b55f16SRiver Riddle }; 23501b55f16SRiver Riddle 23601b55f16SRiver Riddle //===----------------------------------------------------------------------===// 23701b55f16SRiver Riddle // OperationTransactionState 23801b55f16SRiver Riddle 23901b55f16SRiver Riddle /// The state of an operation that was updated by a pattern in-place. This 24001b55f16SRiver Riddle /// contains all of the necessary information to reconstruct an operation that 24101b55f16SRiver Riddle /// was updated in place. 24201b55f16SRiver Riddle class OperationTransactionState { 24301b55f16SRiver Riddle public: 24401b55f16SRiver Riddle OperationTransactionState() = default; 24501b55f16SRiver Riddle OperationTransactionState(Operation *op) 24601b55f16SRiver Riddle : op(op), loc(op->getLoc()), attrs(op->getAttrDictionary()), 24701b55f16SRiver Riddle operands(op->operand_begin(), op->operand_end()), 24801b55f16SRiver Riddle successors(op->successor_begin(), op->successor_end()) {} 24901b55f16SRiver Riddle 25001b55f16SRiver Riddle /// Discard the transaction state and reset the state of the original 25101b55f16SRiver Riddle /// operation. 25201b55f16SRiver Riddle void resetOperation() const { 25301b55f16SRiver Riddle op->setLoc(loc); 25401b55f16SRiver Riddle op->setAttrs(attrs); 25501b55f16SRiver Riddle op->setOperands(operands); 256e4853be2SMehdi Amini for (const auto &it : llvm::enumerate(successors)) 25701b55f16SRiver Riddle op->setSuccessor(it.value(), it.index()); 25801b55f16SRiver Riddle } 25901b55f16SRiver Riddle 26001b55f16SRiver Riddle /// Return the original operation of this state. 26101b55f16SRiver Riddle Operation *getOperation() const { return op; } 26201b55f16SRiver Riddle 26301b55f16SRiver Riddle private: 26401b55f16SRiver Riddle Operation *op; 26501b55f16SRiver Riddle LocationAttr loc; 26601b55f16SRiver Riddle DictionaryAttr attrs; 26701b55f16SRiver Riddle SmallVector<Value, 8> operands; 26801b55f16SRiver Riddle SmallVector<Block *, 2> successors; 26901b55f16SRiver Riddle }; 27001b55f16SRiver Riddle 27101b55f16SRiver Riddle //===----------------------------------------------------------------------===// 27201b55f16SRiver Riddle // OpReplacement 27301b55f16SRiver Riddle 27401b55f16SRiver Riddle /// This class represents one requested operation replacement via 'replaceOp' or 27501b55f16SRiver Riddle /// 'eraseOp`. 27601b55f16SRiver Riddle struct OpReplacement { 27701b55f16SRiver Riddle OpReplacement(TypeConverter *converter = nullptr) : converter(converter) {} 27801b55f16SRiver Riddle 27901b55f16SRiver Riddle /// An optional type converter that can be used to materialize conversions 28001b55f16SRiver Riddle /// between the new and old values if necessary. 28101b55f16SRiver Riddle TypeConverter *converter; 28201b55f16SRiver Riddle }; 28301b55f16SRiver Riddle 28401b55f16SRiver Riddle //===----------------------------------------------------------------------===// 28501b55f16SRiver Riddle // BlockAction 28601b55f16SRiver Riddle 28701b55f16SRiver Riddle /// The kind of the block action performed during the rewrite. Actions can be 28801b55f16SRiver Riddle /// undone if the conversion fails. 28901b55f16SRiver Riddle enum class BlockActionKind { 29001b55f16SRiver Riddle Create, 29101b55f16SRiver Riddle Erase, 29201b55f16SRiver Riddle Merge, 29301b55f16SRiver Riddle Move, 29401b55f16SRiver Riddle Split, 29501b55f16SRiver Riddle TypeConversion 29601b55f16SRiver Riddle }; 29701b55f16SRiver Riddle 29801b55f16SRiver Riddle /// Original position of the given block in its parent region. During undo 29901b55f16SRiver Riddle /// actions, the block needs to be placed after `insertAfterBlock`. 30001b55f16SRiver Riddle struct BlockPosition { 30101b55f16SRiver Riddle Region *region; 30201b55f16SRiver Riddle Block *insertAfterBlock; 30301b55f16SRiver Riddle }; 30401b55f16SRiver Riddle 30501b55f16SRiver Riddle /// Information needed to undo the merge actions. 30601b55f16SRiver Riddle /// - the source block, and 30701b55f16SRiver Riddle /// - the Operation that was the last operation in the dest block before the 30801b55f16SRiver Riddle /// merge (could be null if the dest block was empty). 30901b55f16SRiver Riddle struct MergeInfo { 31001b55f16SRiver Riddle Block *sourceBlock; 31101b55f16SRiver Riddle Operation *destBlockLastInst; 31201b55f16SRiver Riddle }; 31301b55f16SRiver Riddle 31401b55f16SRiver Riddle /// The storage class for an undoable block action (one of BlockActionKind), 31501b55f16SRiver Riddle /// contains the information necessary to undo this action. 31601b55f16SRiver Riddle struct BlockAction { 31701b55f16SRiver Riddle static BlockAction getCreate(Block *block) { 31801b55f16SRiver Riddle return {BlockActionKind::Create, block, {}}; 31901b55f16SRiver Riddle } 32001b55f16SRiver Riddle static BlockAction getErase(Block *block, BlockPosition originalPosition) { 32101b55f16SRiver Riddle return {BlockActionKind::Erase, block, {originalPosition}}; 32201b55f16SRiver Riddle } 32301b55f16SRiver Riddle static BlockAction getMerge(Block *block, Block *sourceBlock) { 32401b55f16SRiver Riddle BlockAction action{BlockActionKind::Merge, block, {}}; 32501b55f16SRiver Riddle action.mergeInfo = {sourceBlock, block->empty() ? nullptr : &block->back()}; 32601b55f16SRiver Riddle return action; 32701b55f16SRiver Riddle } 32801b55f16SRiver Riddle static BlockAction getMove(Block *block, BlockPosition originalPosition) { 32901b55f16SRiver Riddle return {BlockActionKind::Move, block, {originalPosition}}; 33001b55f16SRiver Riddle } 33101b55f16SRiver Riddle static BlockAction getSplit(Block *block, Block *originalBlock) { 33201b55f16SRiver Riddle BlockAction action{BlockActionKind::Split, block, {}}; 33301b55f16SRiver Riddle action.originalBlock = originalBlock; 33401b55f16SRiver Riddle return action; 33501b55f16SRiver Riddle } 33601b55f16SRiver Riddle static BlockAction getTypeConversion(Block *block) { 33701b55f16SRiver Riddle return BlockAction{BlockActionKind::TypeConversion, block, {}}; 33801b55f16SRiver Riddle } 33901b55f16SRiver Riddle 34001b55f16SRiver Riddle // The action kind. 34101b55f16SRiver Riddle BlockActionKind kind; 34201b55f16SRiver Riddle 34301b55f16SRiver Riddle // A pointer to the block that was created by the action. 34401b55f16SRiver Riddle Block *block; 34501b55f16SRiver Riddle 34601b55f16SRiver Riddle union { 34701b55f16SRiver Riddle // In use if kind == BlockActionKind::Move or BlockActionKind::Erase, and 34801b55f16SRiver Riddle // contains a pointer to the region that originally contained the block as 34901b55f16SRiver Riddle // well as the position of the block in that region. 35001b55f16SRiver Riddle BlockPosition originalPosition; 35101b55f16SRiver Riddle // In use if kind == BlockActionKind::Split and contains a pointer to the 35201b55f16SRiver Riddle // block that was split into two parts. 35301b55f16SRiver Riddle Block *originalBlock; 35401b55f16SRiver Riddle // In use if kind == BlockActionKind::Merge, and contains the information 35501b55f16SRiver Riddle // needed to undo the merge. 35601b55f16SRiver Riddle MergeInfo mergeInfo; 35701b55f16SRiver Riddle }; 35801b55f16SRiver Riddle }; 359015192c6SRiver Riddle 360015192c6SRiver Riddle //===----------------------------------------------------------------------===// 361015192c6SRiver Riddle // UnresolvedMaterialization 362015192c6SRiver Riddle 363015192c6SRiver Riddle /// This class represents an unresolved materialization, i.e. a materialization 364015192c6SRiver Riddle /// that was inserted during conversion that needs to be legalized at the end of 365015192c6SRiver Riddle /// the conversion process. 366015192c6SRiver Riddle class UnresolvedMaterialization { 367015192c6SRiver Riddle public: 368015192c6SRiver Riddle /// The type of materialization. 369015192c6SRiver Riddle enum Kind { 370015192c6SRiver Riddle /// This materialization materializes a conversion for an illegal block 371015192c6SRiver Riddle /// argument type, to a legal one. 372015192c6SRiver Riddle Argument, 373015192c6SRiver Riddle 374015192c6SRiver Riddle /// This materialization materializes a conversion from an illegal type to a 375015192c6SRiver Riddle /// legal one. 376015192c6SRiver Riddle Target 377015192c6SRiver Riddle }; 378015192c6SRiver Riddle 379015192c6SRiver Riddle UnresolvedMaterialization(UnrealizedConversionCastOp op = nullptr, 380015192c6SRiver Riddle TypeConverter *converter = nullptr, 381015192c6SRiver Riddle Kind kind = Target, Type origOutputType = nullptr) 382015192c6SRiver Riddle : op(op), converterAndKind(converter, kind), 383015192c6SRiver Riddle origOutputType(origOutputType) {} 384015192c6SRiver Riddle 385015192c6SRiver Riddle /// Return the temporary conversion operation inserted for this 386015192c6SRiver Riddle /// materialization. 387015192c6SRiver Riddle UnrealizedConversionCastOp getOp() const { return op; } 388015192c6SRiver Riddle 389015192c6SRiver Riddle /// Return the type converter of this materialization (which may be null). 390015192c6SRiver Riddle TypeConverter *getConverter() const { return converterAndKind.getPointer(); } 391015192c6SRiver Riddle 392015192c6SRiver Riddle /// Return the kind of this materialization. 393015192c6SRiver Riddle Kind getKind() const { return converterAndKind.getInt(); } 394015192c6SRiver Riddle 395015192c6SRiver Riddle /// Set the kind of this materialization. 396015192c6SRiver Riddle void setKind(Kind kind) { converterAndKind.setInt(kind); } 397015192c6SRiver Riddle 398015192c6SRiver Riddle /// Return the original illegal output type of the input values. 399015192c6SRiver Riddle Type getOrigOutputType() const { return origOutputType; } 400015192c6SRiver Riddle 401015192c6SRiver Riddle private: 402015192c6SRiver Riddle /// The unresolved materialization operation created during conversion. 403015192c6SRiver Riddle UnrealizedConversionCastOp op; 404015192c6SRiver Riddle 405015192c6SRiver Riddle /// The corresponding type converter to use when resolving this 406015192c6SRiver Riddle /// materialization, and the kind of this materialization. 407015192c6SRiver Riddle llvm::PointerIntPair<TypeConverter *, 1, Kind> converterAndKind; 408015192c6SRiver Riddle 409015192c6SRiver Riddle /// The original output type. This is only used for argument conversions. 410015192c6SRiver Riddle Type origOutputType; 411015192c6SRiver Riddle }; 412be0a7e9fSMehdi Amini } // namespace 41301b55f16SRiver Riddle 414015192c6SRiver Riddle /// Build an unresolved materialization operation given an output type and set 415015192c6SRiver Riddle /// of input operands. 416015192c6SRiver Riddle static Value buildUnresolvedMaterialization( 417015192c6SRiver Riddle UnresolvedMaterialization::Kind kind, Block *insertBlock, 418015192c6SRiver Riddle Block::iterator insertPt, Location loc, ValueRange inputs, Type outputType, 419015192c6SRiver Riddle Type origOutputType, TypeConverter *converter, 420015192c6SRiver Riddle SmallVectorImpl<UnresolvedMaterialization> &unresolvedMaterializations) { 421015192c6SRiver Riddle // Avoid materializing an unnecessary cast. 422015192c6SRiver Riddle if (inputs.size() == 1 && inputs.front().getType() == outputType) 423015192c6SRiver Riddle return inputs.front(); 424015192c6SRiver Riddle 425015192c6SRiver Riddle // Create an unresolved materialization. We use a new OpBuilder to avoid 426015192c6SRiver Riddle // tracking the materialization like we do for other operations. 427015192c6SRiver Riddle OpBuilder builder(insertBlock, insertPt); 428015192c6SRiver Riddle auto convertOp = 429015192c6SRiver Riddle builder.create<UnrealizedConversionCastOp>(loc, outputType, inputs); 430015192c6SRiver Riddle unresolvedMaterializations.emplace_back(convertOp, converter, kind, 431015192c6SRiver Riddle origOutputType); 432015192c6SRiver Riddle return convertOp.getResult(0); 433015192c6SRiver Riddle } 434015192c6SRiver Riddle static Value buildUnresolvedArgumentMaterialization( 435015192c6SRiver Riddle PatternRewriter &rewriter, Location loc, ValueRange inputs, 436015192c6SRiver Riddle Type origOutputType, Type outputType, TypeConverter *converter, 437015192c6SRiver Riddle SmallVectorImpl<UnresolvedMaterialization> &unresolvedMaterializations) { 438015192c6SRiver Riddle return buildUnresolvedMaterialization( 439015192c6SRiver Riddle UnresolvedMaterialization::Argument, rewriter.getInsertionBlock(), 440015192c6SRiver Riddle rewriter.getInsertionPoint(), loc, inputs, outputType, origOutputType, 441015192c6SRiver Riddle converter, unresolvedMaterializations); 442015192c6SRiver Riddle } 443015192c6SRiver Riddle static Value buildUnresolvedTargetMaterialization( 444015192c6SRiver Riddle Location loc, Value input, Type outputType, TypeConverter *converter, 445015192c6SRiver Riddle SmallVectorImpl<UnresolvedMaterialization> &unresolvedMaterializations) { 446015192c6SRiver Riddle Block *insertBlock = input.getParentBlock(); 447015192c6SRiver Riddle Block::iterator insertPt = insertBlock->begin(); 448015192c6SRiver Riddle if (OpResult inputRes = input.dyn_cast<OpResult>()) 449015192c6SRiver Riddle insertPt = ++inputRes.getOwner()->getIterator(); 450015192c6SRiver Riddle 451015192c6SRiver Riddle return buildUnresolvedMaterialization( 452015192c6SRiver Riddle UnresolvedMaterialization::Target, insertBlock, insertPt, loc, input, 453015192c6SRiver Riddle outputType, outputType, converter, unresolvedMaterializations); 454015192c6SRiver Riddle } 455015192c6SRiver Riddle 45601b55f16SRiver Riddle //===----------------------------------------------------------------------===// 457b6eb26fdSRiver Riddle // ArgConverter 458b6eb26fdSRiver Riddle //===----------------------------------------------------------------------===// 459b6eb26fdSRiver Riddle namespace { 460b6eb26fdSRiver Riddle /// This class provides a simple interface for converting the types of block 461b6eb26fdSRiver Riddle /// arguments. This is done by creating a new block that contains the new legal 462b6eb26fdSRiver Riddle /// types and extracting the block that contains the old illegal types to allow 463b6eb26fdSRiver Riddle /// for undoing pending rewrites in the case of failure. 464b6eb26fdSRiver Riddle struct ArgConverter { 465015192c6SRiver Riddle ArgConverter( 466015192c6SRiver Riddle PatternRewriter &rewriter, 467015192c6SRiver Riddle SmallVectorImpl<UnresolvedMaterialization> &unresolvedMaterializations) 468015192c6SRiver Riddle : rewriter(rewriter), 469015192c6SRiver Riddle unresolvedMaterializations(unresolvedMaterializations) {} 470b6eb26fdSRiver Riddle 471b6eb26fdSRiver Riddle /// This structure contains the information pertaining to an argument that has 472b6eb26fdSRiver Riddle /// been converted. 473b6eb26fdSRiver Riddle struct ConvertedArgInfo { 474b6eb26fdSRiver Riddle ConvertedArgInfo(unsigned newArgIdx, unsigned newArgSize, 475b6eb26fdSRiver Riddle Value castValue = nullptr) 476b6eb26fdSRiver Riddle : newArgIdx(newArgIdx), newArgSize(newArgSize), castValue(castValue) {} 477b6eb26fdSRiver Riddle 478b6eb26fdSRiver Riddle /// The start index of in the new argument list that contains arguments that 479b6eb26fdSRiver Riddle /// replace the original. 480b6eb26fdSRiver Riddle unsigned newArgIdx; 481b6eb26fdSRiver Riddle 482b6eb26fdSRiver Riddle /// The number of arguments that replaced the original argument. 483b6eb26fdSRiver Riddle unsigned newArgSize; 484b6eb26fdSRiver Riddle 485b6eb26fdSRiver Riddle /// The cast value that was created to cast from the new arguments to the 486b6eb26fdSRiver Riddle /// old. This only used if 'newArgSize' > 1. 487b6eb26fdSRiver Riddle Value castValue; 488b6eb26fdSRiver Riddle }; 489b6eb26fdSRiver Riddle 490b6eb26fdSRiver Riddle /// This structure contains information pertaining to a block that has had its 491b6eb26fdSRiver Riddle /// signature converted. 492b6eb26fdSRiver Riddle struct ConvertedBlockInfo { 493015192c6SRiver Riddle ConvertedBlockInfo(Block *origBlock, TypeConverter *converter) 494015192c6SRiver Riddle : origBlock(origBlock), converter(converter) {} 495b6eb26fdSRiver Riddle 496b6eb26fdSRiver Riddle /// The original block that was requested to have its signature converted. 497b6eb26fdSRiver Riddle Block *origBlock; 498b6eb26fdSRiver Riddle 499b6eb26fdSRiver Riddle /// The conversion information for each of the arguments. The information is 5004f81805aSKazu Hirata /// std::nullopt if the argument was dropped during conversion. 5010de16fafSRamkumar Ramachandra SmallVector<std::optional<ConvertedArgInfo>, 1> argInfo; 502b6eb26fdSRiver Riddle 503b6eb26fdSRiver Riddle /// The type converter used to convert the arguments. 504b6eb26fdSRiver Riddle TypeConverter *converter; 505b6eb26fdSRiver Riddle }; 506b6eb26fdSRiver Riddle 507b6eb26fdSRiver Riddle /// Return if the signature of the given block has already been converted. 508b6eb26fdSRiver Riddle bool hasBeenConverted(Block *block) const { 509b6eb26fdSRiver Riddle return conversionInfo.count(block) || convertedBlocks.count(block); 510b6eb26fdSRiver Riddle } 511b6eb26fdSRiver Riddle 512b6eb26fdSRiver Riddle /// Set the type converter to use for the given region. 513b6eb26fdSRiver Riddle void setConverter(Region *region, TypeConverter *typeConverter) { 514b6eb26fdSRiver Riddle assert(typeConverter && "expected valid type converter"); 515b6eb26fdSRiver Riddle regionToConverter[region] = typeConverter; 516b6eb26fdSRiver Riddle } 517b6eb26fdSRiver Riddle 518b6eb26fdSRiver Riddle /// Return the type converter to use for the given region, or null if there 519b6eb26fdSRiver Riddle /// isn't one. 520b6eb26fdSRiver Riddle TypeConverter *getConverter(Region *region) { 521b6eb26fdSRiver Riddle return regionToConverter.lookup(region); 522b6eb26fdSRiver Riddle } 523b6eb26fdSRiver Riddle 524b6eb26fdSRiver Riddle //===--------------------------------------------------------------------===// 525b6eb26fdSRiver Riddle // Rewrite Application 526b6eb26fdSRiver Riddle //===--------------------------------------------------------------------===// 527b6eb26fdSRiver Riddle 528b6eb26fdSRiver Riddle /// Erase any rewrites registered for the blocks within the given operation 529b6eb26fdSRiver Riddle /// which is about to be removed. This merely drops the rewrites without 530b6eb26fdSRiver Riddle /// undoing them. 531b6eb26fdSRiver Riddle void notifyOpRemoved(Operation *op); 532b6eb26fdSRiver Riddle 533b6eb26fdSRiver Riddle /// Cleanup and undo any generated conversions for the arguments of block. 534b6eb26fdSRiver Riddle /// This method replaces the new block with the original, reverting the IR to 535b6eb26fdSRiver Riddle /// its original state. 536b6eb26fdSRiver Riddle void discardRewrites(Block *block); 537b6eb26fdSRiver Riddle 538b6eb26fdSRiver Riddle /// Fully replace uses of the old arguments with the new. 539b6eb26fdSRiver Riddle void applyRewrites(ConversionValueMapping &mapping); 540b6eb26fdSRiver Riddle 541b6eb26fdSRiver Riddle /// Materialize any necessary conversions for converted arguments that have 542b6eb26fdSRiver Riddle /// live users, using the provided `findLiveUser` to search for a user that 543b6eb26fdSRiver Riddle /// survives the conversion process. 544b6eb26fdSRiver Riddle LogicalResult 545b6eb26fdSRiver Riddle materializeLiveConversions(ConversionValueMapping &mapping, 546b6eb26fdSRiver Riddle OpBuilder &builder, 547b6eb26fdSRiver Riddle function_ref<Operation *(Value)> findLiveUser); 548b6eb26fdSRiver Riddle 549b6eb26fdSRiver Riddle //===--------------------------------------------------------------------===// 550b6eb26fdSRiver Riddle // Conversion 551b6eb26fdSRiver Riddle //===--------------------------------------------------------------------===// 552b6eb26fdSRiver Riddle 553b6eb26fdSRiver Riddle /// Attempt to convert the signature of the given block, if successful a new 554b6eb26fdSRiver Riddle /// block is returned containing the new arguments. Returns `block` if it did 555b6eb26fdSRiver Riddle /// not require conversion. 5560409eb28SAlex Zinenko FailureOr<Block *> 557015192c6SRiver Riddle convertSignature(Block *block, TypeConverter *converter, 5580409eb28SAlex Zinenko ConversionValueMapping &mapping, 5590409eb28SAlex Zinenko SmallVectorImpl<BlockArgument> &argReplacements); 560b6eb26fdSRiver Riddle 561b6eb26fdSRiver Riddle /// Apply the given signature conversion on the given block. The new block 562b6eb26fdSRiver Riddle /// containing the updated signature is returned. If no conversions were 563b6eb26fdSRiver Riddle /// necessary, e.g. if the block has no arguments, `block` is returned. 564b6eb26fdSRiver Riddle /// `converter` is used to generate any necessary cast operations that 565b6eb26fdSRiver Riddle /// translate between the origin argument types and those specified in the 566b6eb26fdSRiver Riddle /// signature conversion. 567b6eb26fdSRiver Riddle Block *applySignatureConversion( 568015192c6SRiver Riddle Block *block, TypeConverter *converter, 569b6eb26fdSRiver Riddle TypeConverter::SignatureConversion &signatureConversion, 5700409eb28SAlex Zinenko ConversionValueMapping &mapping, 5710409eb28SAlex Zinenko SmallVectorImpl<BlockArgument> &argReplacements); 572b6eb26fdSRiver Riddle 573b6eb26fdSRiver Riddle /// Insert a new conversion into the cache. 574b6eb26fdSRiver Riddle void insertConversion(Block *newBlock, ConvertedBlockInfo &&info); 575b6eb26fdSRiver Riddle 576b6eb26fdSRiver Riddle /// A collection of blocks that have had their arguments converted. This is a 577b6eb26fdSRiver Riddle /// map from the new replacement block, back to the original block. 578b6eb26fdSRiver Riddle llvm::MapVector<Block *, ConvertedBlockInfo> conversionInfo; 579b6eb26fdSRiver Riddle 580b6eb26fdSRiver Riddle /// The set of original blocks that were converted. 581b6eb26fdSRiver Riddle DenseSet<Block *> convertedBlocks; 582b6eb26fdSRiver Riddle 583b6eb26fdSRiver Riddle /// A mapping from valid regions, to those containing the original blocks of a 584b6eb26fdSRiver Riddle /// conversion. 585b6eb26fdSRiver Riddle DenseMap<Region *, std::unique_ptr<Region>> regionMapping; 586b6eb26fdSRiver Riddle 587b6eb26fdSRiver Riddle /// A mapping of regions to type converters that should be used when 588b6eb26fdSRiver Riddle /// converting the arguments of blocks within that region. 589b6eb26fdSRiver Riddle DenseMap<Region *, TypeConverter *> regionToConverter; 590b6eb26fdSRiver Riddle 591b6eb26fdSRiver Riddle /// The pattern rewriter to use when materializing conversions. 592b6eb26fdSRiver Riddle PatternRewriter &rewriter; 593015192c6SRiver Riddle 594015192c6SRiver Riddle /// An ordered set of unresolved materializations during conversion. 595015192c6SRiver Riddle SmallVectorImpl<UnresolvedMaterialization> &unresolvedMaterializations; 596b6eb26fdSRiver Riddle }; 597be0a7e9fSMehdi Amini } // namespace 598b6eb26fdSRiver Riddle 599b6eb26fdSRiver Riddle //===----------------------------------------------------------------------===// 600b6eb26fdSRiver Riddle // Rewrite Application 601b6eb26fdSRiver Riddle 602b6eb26fdSRiver Riddle void ArgConverter::notifyOpRemoved(Operation *op) { 603b6eb26fdSRiver Riddle if (conversionInfo.empty()) 604b6eb26fdSRiver Riddle return; 605b6eb26fdSRiver Riddle 606b6eb26fdSRiver Riddle for (Region ®ion : op->getRegions()) { 607b6eb26fdSRiver Riddle for (Block &block : region) { 608b6eb26fdSRiver Riddle // Drop any rewrites from within. 609b6eb26fdSRiver Riddle for (Operation &nestedOp : block) 610b6eb26fdSRiver Riddle if (nestedOp.getNumRegions()) 611b6eb26fdSRiver Riddle notifyOpRemoved(&nestedOp); 612b6eb26fdSRiver Riddle 613b6eb26fdSRiver Riddle // Check if this block was converted. 614b6eb26fdSRiver Riddle auto it = conversionInfo.find(&block); 615b6eb26fdSRiver Riddle if (it == conversionInfo.end()) 616b6eb26fdSRiver Riddle continue; 617b6eb26fdSRiver Riddle 618b6eb26fdSRiver Riddle // Drop all uses of the original arguments and delete the original block. 619b6eb26fdSRiver Riddle Block *origBlock = it->second.origBlock; 620b6eb26fdSRiver Riddle for (BlockArgument arg : origBlock->getArguments()) 621b6eb26fdSRiver Riddle arg.dropAllUses(); 622b6eb26fdSRiver Riddle conversionInfo.erase(it); 623b6eb26fdSRiver Riddle } 624b6eb26fdSRiver Riddle } 625b6eb26fdSRiver Riddle } 626b6eb26fdSRiver Riddle 627b6eb26fdSRiver Riddle void ArgConverter::discardRewrites(Block *block) { 628b6eb26fdSRiver Riddle auto it = conversionInfo.find(block); 629b6eb26fdSRiver Riddle if (it == conversionInfo.end()) 630b6eb26fdSRiver Riddle return; 631b6eb26fdSRiver Riddle Block *origBlock = it->second.origBlock; 632b6eb26fdSRiver Riddle 633b6eb26fdSRiver Riddle // Drop all uses of the new block arguments and replace uses of the new block. 634b6eb26fdSRiver Riddle for (int i = block->getNumArguments() - 1; i >= 0; --i) 635b6eb26fdSRiver Riddle block->getArgument(i).dropAllUses(); 636b6eb26fdSRiver Riddle block->replaceAllUsesWith(origBlock); 637b6eb26fdSRiver Riddle 638b6eb26fdSRiver Riddle // Move the operations back the original block and the delete the new block. 639b6eb26fdSRiver Riddle origBlock->getOperations().splice(origBlock->end(), block->getOperations()); 640b6eb26fdSRiver Riddle origBlock->moveBefore(block); 641b6eb26fdSRiver Riddle block->erase(); 642b6eb26fdSRiver Riddle 643b6eb26fdSRiver Riddle convertedBlocks.erase(origBlock); 644b6eb26fdSRiver Riddle conversionInfo.erase(it); 645b6eb26fdSRiver Riddle } 646b6eb26fdSRiver Riddle 647b6eb26fdSRiver Riddle void ArgConverter::applyRewrites(ConversionValueMapping &mapping) { 648b6eb26fdSRiver Riddle for (auto &info : conversionInfo) { 649b6eb26fdSRiver Riddle ConvertedBlockInfo &blockInfo = info.second; 650b6eb26fdSRiver Riddle Block *origBlock = blockInfo.origBlock; 651b6eb26fdSRiver Riddle 652b6eb26fdSRiver Riddle // Process the remapping for each of the original arguments. 653b6eb26fdSRiver Riddle for (unsigned i = 0, e = origBlock->getNumArguments(); i != e; ++i) { 6540de16fafSRamkumar Ramachandra std::optional<ConvertedArgInfo> &argInfo = blockInfo.argInfo[i]; 655b6eb26fdSRiver Riddle BlockArgument origArg = origBlock->getArgument(i); 656b6eb26fdSRiver Riddle 657b6eb26fdSRiver Riddle // Handle the case of a 1->0 value mapping. 658b6eb26fdSRiver Riddle if (!argInfo) { 659015192c6SRiver Riddle if (Value newArg = mapping.lookupOrNull(origArg, origArg.getType())) 660b6eb26fdSRiver Riddle origArg.replaceAllUsesWith(newArg); 661b6eb26fdSRiver Riddle continue; 662b6eb26fdSRiver Riddle } 663b6eb26fdSRiver Riddle 664b6eb26fdSRiver Riddle // Otherwise this is a 1->1+ value mapping. 665b6eb26fdSRiver Riddle Value castValue = argInfo->castValue; 666b6eb26fdSRiver Riddle assert(argInfo->newArgSize >= 1 && castValue && "expected 1->1+ mapping"); 667b6eb26fdSRiver Riddle 668b6eb26fdSRiver Riddle // If the argument is still used, replace it with the generated cast. 669015192c6SRiver Riddle if (!origArg.use_empty()) { 670015192c6SRiver Riddle origArg.replaceAllUsesWith( 671015192c6SRiver Riddle mapping.lookupOrDefault(castValue, origArg.getType())); 672015192c6SRiver Riddle } 673b6eb26fdSRiver Riddle } 674b6eb26fdSRiver Riddle } 675b6eb26fdSRiver Riddle } 676b6eb26fdSRiver Riddle 677b6eb26fdSRiver Riddle LogicalResult ArgConverter::materializeLiveConversions( 678b6eb26fdSRiver Riddle ConversionValueMapping &mapping, OpBuilder &builder, 679b6eb26fdSRiver Riddle function_ref<Operation *(Value)> findLiveUser) { 680b6eb26fdSRiver Riddle for (auto &info : conversionInfo) { 681b6eb26fdSRiver Riddle Block *newBlock = info.first; 682b6eb26fdSRiver Riddle ConvertedBlockInfo &blockInfo = info.second; 683b6eb26fdSRiver Riddle Block *origBlock = blockInfo.origBlock; 684b6eb26fdSRiver Riddle 685b6eb26fdSRiver Riddle // Process the remapping for each of the original arguments. 686b6eb26fdSRiver Riddle for (unsigned i = 0, e = origBlock->getNumArguments(); i != e; ++i) { 687b6eb26fdSRiver Riddle // If the type of this argument changed and the argument is still live, we 688b6eb26fdSRiver Riddle // need to materialize a conversion. 689b6eb26fdSRiver Riddle BlockArgument origArg = origBlock->getArgument(i); 690015192c6SRiver Riddle if (mapping.lookupOrNull(origArg, origArg.getType())) 691b6eb26fdSRiver Riddle continue; 692b6eb26fdSRiver Riddle Operation *liveUser = findLiveUser(origArg); 693b6eb26fdSRiver Riddle if (!liveUser) 694b6eb26fdSRiver Riddle continue; 695b6eb26fdSRiver Riddle 696015192c6SRiver Riddle Value replacementValue = mapping.lookupOrDefault(origArg); 697015192c6SRiver Riddle bool isDroppedArg = replacementValue == origArg; 698015192c6SRiver Riddle if (isDroppedArg) 699b6eb26fdSRiver Riddle rewriter.setInsertionPointToStart(newBlock); 700015192c6SRiver Riddle else 701015192c6SRiver Riddle rewriter.setInsertionPointAfterValue(replacementValue); 702015192c6SRiver Riddle Value newArg; 703015192c6SRiver Riddle if (blockInfo.converter) { 704015192c6SRiver Riddle newArg = blockInfo.converter->materializeSourceConversion( 705b6eb26fdSRiver Riddle rewriter, origArg.getLoc(), origArg.getType(), 706015192c6SRiver Riddle isDroppedArg ? ValueRange() : ValueRange(replacementValue)); 707015192c6SRiver Riddle assert((!newArg || newArg.getType() == origArg.getType()) && 708015192c6SRiver Riddle "materialization hook did not provide a value of the expected " 709015192c6SRiver Riddle "type"); 710015192c6SRiver Riddle } 711b6eb26fdSRiver Riddle if (!newArg) { 712b6eb26fdSRiver Riddle InFlightDiagnostic diag = 713b6eb26fdSRiver Riddle emitError(origArg.getLoc()) 714b6eb26fdSRiver Riddle << "failed to materialize conversion for block argument #" << i 715b6eb26fdSRiver Riddle << " that remained live after conversion, type was " 716b6eb26fdSRiver Riddle << origArg.getType(); 717b6eb26fdSRiver Riddle if (!isDroppedArg) 718015192c6SRiver Riddle diag << ", with target type " << replacementValue.getType(); 719b6eb26fdSRiver Riddle diag.attachNote(liveUser->getLoc()) 720b6eb26fdSRiver Riddle << "see existing live user here: " << *liveUser; 721b6eb26fdSRiver Riddle return failure(); 722b6eb26fdSRiver Riddle } 723b6eb26fdSRiver Riddle mapping.map(origArg, newArg); 724b6eb26fdSRiver Riddle } 725b6eb26fdSRiver Riddle } 726b6eb26fdSRiver Riddle return success(); 727b6eb26fdSRiver Riddle } 728b6eb26fdSRiver Riddle 729b6eb26fdSRiver Riddle //===----------------------------------------------------------------------===// 730b6eb26fdSRiver Riddle // Conversion 731b6eb26fdSRiver Riddle 7320409eb28SAlex Zinenko FailureOr<Block *> ArgConverter::convertSignature( 733015192c6SRiver Riddle Block *block, TypeConverter *converter, ConversionValueMapping &mapping, 7340409eb28SAlex Zinenko SmallVectorImpl<BlockArgument> &argReplacements) { 735b6eb26fdSRiver Riddle // Check if the block was already converted. If the block is detached, 736b6eb26fdSRiver Riddle // conservatively assume it is going to be deleted. 737b6eb26fdSRiver Riddle if (hasBeenConverted(block) || !block->getParent()) 738b6eb26fdSRiver Riddle return block; 739015192c6SRiver Riddle // If a converter wasn't provided, and the block wasn't already converted, 740015192c6SRiver Riddle // there is nothing we can do. 741015192c6SRiver Riddle if (!converter) 742015192c6SRiver Riddle return failure(); 743b6eb26fdSRiver Riddle 744b6eb26fdSRiver Riddle // Try to convert the signature for the block with the provided converter. 745015192c6SRiver Riddle if (auto conversion = converter->convertBlockSignature(block)) 7460409eb28SAlex Zinenko return applySignatureConversion(block, converter, *conversion, mapping, 7470409eb28SAlex Zinenko argReplacements); 748b6eb26fdSRiver Riddle return failure(); 749b6eb26fdSRiver Riddle } 750b6eb26fdSRiver Riddle 751b6eb26fdSRiver Riddle Block *ArgConverter::applySignatureConversion( 752015192c6SRiver Riddle Block *block, TypeConverter *converter, 753b6eb26fdSRiver Riddle TypeConverter::SignatureConversion &signatureConversion, 7540409eb28SAlex Zinenko ConversionValueMapping &mapping, 7550409eb28SAlex Zinenko SmallVectorImpl<BlockArgument> &argReplacements) { 756b6eb26fdSRiver Riddle // If no arguments are being changed or added, there is nothing to do. 757b6eb26fdSRiver Riddle unsigned origArgCount = block->getNumArguments(); 758b6eb26fdSRiver Riddle auto convertedTypes = signatureConversion.getConvertedTypes(); 759b6eb26fdSRiver Riddle if (origArgCount == 0 && convertedTypes.empty()) 760b6eb26fdSRiver Riddle return block; 761b6eb26fdSRiver Riddle 762b6eb26fdSRiver Riddle // Split the block at the beginning to get a new block to use for the updated 763b6eb26fdSRiver Riddle // signature. 764b6eb26fdSRiver Riddle Block *newBlock = block->splitBlock(block->begin()); 765b6eb26fdSRiver Riddle block->replaceAllUsesWith(newBlock); 766b6eb26fdSRiver Riddle 767e084679fSRiver Riddle // FIXME: We should map the new arguments to proper locations. 768e084679fSRiver Riddle SmallVector<Location> newLocs(convertedTypes.size(), 769e084679fSRiver Riddle rewriter.getUnknownLoc()); 770e084679fSRiver Riddle SmallVector<Value, 4> newArgRange( 771e084679fSRiver Riddle newBlock->addArguments(convertedTypes, newLocs)); 772b6eb26fdSRiver Riddle ArrayRef<Value> newArgs(newArgRange); 773b6eb26fdSRiver Riddle 774b6eb26fdSRiver Riddle // Remap each of the original arguments as determined by the signature 775b6eb26fdSRiver Riddle // conversion. 776b6eb26fdSRiver Riddle ConvertedBlockInfo info(block, converter); 777b6eb26fdSRiver Riddle info.argInfo.resize(origArgCount); 778b6eb26fdSRiver Riddle 779b6eb26fdSRiver Riddle OpBuilder::InsertionGuard guard(rewriter); 780b6eb26fdSRiver Riddle rewriter.setInsertionPointToStart(newBlock); 781b6eb26fdSRiver Riddle for (unsigned i = 0; i != origArgCount; ++i) { 782b6eb26fdSRiver Riddle auto inputMap = signatureConversion.getInputMapping(i); 783b6eb26fdSRiver Riddle if (!inputMap) 784b6eb26fdSRiver Riddle continue; 785b6eb26fdSRiver Riddle BlockArgument origArg = block->getArgument(i); 786b6eb26fdSRiver Riddle 787b6eb26fdSRiver Riddle // If inputMap->replacementValue is not nullptr, then the argument is 788b6eb26fdSRiver Riddle // dropped and a replacement value is provided to be the remappedValue. 789b6eb26fdSRiver Riddle if (inputMap->replacementValue) { 790b6eb26fdSRiver Riddle assert(inputMap->size == 0 && 791b6eb26fdSRiver Riddle "invalid to provide a replacement value when the argument isn't " 792b6eb26fdSRiver Riddle "dropped"); 793b6eb26fdSRiver Riddle mapping.map(origArg, inputMap->replacementValue); 7940409eb28SAlex Zinenko argReplacements.push_back(origArg); 795b6eb26fdSRiver Riddle continue; 796b6eb26fdSRiver Riddle } 797b6eb26fdSRiver Riddle 798015192c6SRiver Riddle // Otherwise, this is a 1->1+ mapping. 799b6eb26fdSRiver Riddle auto replArgs = newArgs.slice(inputMap->inputNo, inputMap->size); 800aa6eb2afSKareemErgawy-TomTom Value newArg; 801aa6eb2afSKareemErgawy-TomTom 802aa6eb2afSKareemErgawy-TomTom // If this is a 1->1 mapping and the types of new and replacement arguments 803aa6eb2afSKareemErgawy-TomTom // match (i.e. it's an identity map), then the argument is mapped to its 804aa6eb2afSKareemErgawy-TomTom // original type. 805015192c6SRiver Riddle // FIXME: We simply pass through the replacement argument if there wasn't a 806015192c6SRiver Riddle // converter, which isn't great as it allows implicit type conversions to 807015192c6SRiver Riddle // appear. We should properly restructure this code to handle cases where a 808015192c6SRiver Riddle // converter isn't provided and also to properly handle the case where an 809015192c6SRiver Riddle // argument materialization is actually a temporary source materialization 810015192c6SRiver Riddle // (e.g. in the case of 1->N). 811015192c6SRiver Riddle if (replArgs.size() == 1 && 812015192c6SRiver Riddle (!converter || replArgs[0].getType() == origArg.getType())) { 81301b55f16SRiver Riddle newArg = replArgs.front(); 814015192c6SRiver Riddle } else { 815015192c6SRiver Riddle Type origOutputType = origArg.getType(); 816aa6eb2afSKareemErgawy-TomTom 817015192c6SRiver Riddle // Legalize the argument output type. 818015192c6SRiver Riddle Type outputType = origOutputType; 819015192c6SRiver Riddle if (Type legalOutputType = converter->convertType(outputType)) 820015192c6SRiver Riddle outputType = legalOutputType; 821015192c6SRiver Riddle 822015192c6SRiver Riddle newArg = buildUnresolvedArgumentMaterialization( 823015192c6SRiver Riddle rewriter, origArg.getLoc(), replArgs, origOutputType, outputType, 824015192c6SRiver Riddle converter, unresolvedMaterializations); 825b6eb26fdSRiver Riddle } 826015192c6SRiver Riddle 827b6eb26fdSRiver Riddle mapping.map(origArg, newArg); 8280409eb28SAlex Zinenko argReplacements.push_back(origArg); 829b6eb26fdSRiver Riddle info.argInfo[i] = 830b6eb26fdSRiver Riddle ConvertedArgInfo(inputMap->inputNo, inputMap->size, newArg); 831b6eb26fdSRiver Riddle } 832b6eb26fdSRiver Riddle 833b6eb26fdSRiver Riddle // Remove the original block from the region and return the new one. 834b6eb26fdSRiver Riddle insertConversion(newBlock, std::move(info)); 835b6eb26fdSRiver Riddle return newBlock; 836b6eb26fdSRiver Riddle } 837b6eb26fdSRiver Riddle 838b6eb26fdSRiver Riddle void ArgConverter::insertConversion(Block *newBlock, 839b6eb26fdSRiver Riddle ConvertedBlockInfo &&info) { 840b6eb26fdSRiver Riddle // Get a region to insert the old block. 841b6eb26fdSRiver Riddle Region *region = newBlock->getParent(); 842b6eb26fdSRiver Riddle std::unique_ptr<Region> &mappedRegion = regionMapping[region]; 843b6eb26fdSRiver Riddle if (!mappedRegion) 844b6eb26fdSRiver Riddle mappedRegion = std::make_unique<Region>(region->getParentOp()); 845b6eb26fdSRiver Riddle 846b6eb26fdSRiver Riddle // Move the original block to the mapped region and emplace the conversion. 847b6eb26fdSRiver Riddle mappedRegion->getBlocks().splice(mappedRegion->end(), region->getBlocks(), 848b6eb26fdSRiver Riddle info.origBlock->getIterator()); 849b6eb26fdSRiver Riddle convertedBlocks.insert(info.origBlock); 850b6eb26fdSRiver Riddle conversionInfo.insert({newBlock, std::move(info)}); 851b6eb26fdSRiver Riddle } 852b6eb26fdSRiver Riddle 853b6eb26fdSRiver Riddle //===----------------------------------------------------------------------===// 854b6eb26fdSRiver Riddle // ConversionPatternRewriterImpl 855b6eb26fdSRiver Riddle //===----------------------------------------------------------------------===// 856b6eb26fdSRiver Riddle namespace mlir { 857b6eb26fdSRiver Riddle namespace detail { 858b6eb26fdSRiver Riddle struct ConversionPatternRewriterImpl { 859b8c6b152SChia-hung Duan explicit ConversionPatternRewriterImpl(PatternRewriter &rewriter) 860b8c6b152SChia-hung Duan : argConverter(rewriter, unresolvedMaterializations), 861b8c6b152SChia-hung Duan notifyCallback(nullptr) {} 862b6eb26fdSRiver Riddle 863b6eb26fdSRiver Riddle /// Cleanup and destroy any generated rewrite operations. This method is 864b6eb26fdSRiver Riddle /// invoked when the conversion process fails. 865b6eb26fdSRiver Riddle void discardRewrites(); 866b6eb26fdSRiver Riddle 867b6eb26fdSRiver Riddle /// Apply all requested operation rewrites. This method is invoked when the 868b6eb26fdSRiver Riddle /// conversion process succeeds. 869b6eb26fdSRiver Riddle void applyRewrites(); 870b6eb26fdSRiver Riddle 871b6eb26fdSRiver Riddle //===--------------------------------------------------------------------===// 872b6eb26fdSRiver Riddle // State Management 873b6eb26fdSRiver Riddle //===--------------------------------------------------------------------===// 874b6eb26fdSRiver Riddle 875b6eb26fdSRiver Riddle /// Return the current state of the rewriter. 876b6eb26fdSRiver Riddle RewriterState getCurrentState(); 877b6eb26fdSRiver Riddle 878b6eb26fdSRiver Riddle /// Reset the state of the rewriter to a previously saved point. 879b6eb26fdSRiver Riddle void resetState(RewriterState state); 880b6eb26fdSRiver Riddle 881b6eb26fdSRiver Riddle /// Erase any blocks that were unlinked from their regions and stored in block 882b6eb26fdSRiver Riddle /// actions. 883b6eb26fdSRiver Riddle void eraseDanglingBlocks(); 884b6eb26fdSRiver Riddle 885b6eb26fdSRiver Riddle /// Undo the block actions (motions, splits) one by one in reverse order until 886b6eb26fdSRiver Riddle /// "numActionsToKeep" actions remains. 887b6eb26fdSRiver Riddle void undoBlockActions(unsigned numActionsToKeep = 0); 888b6eb26fdSRiver Riddle 889015192c6SRiver Riddle /// Remap the given values to those with potentially different types. Returns 890015192c6SRiver Riddle /// success if the values could be remapped, failure otherwise. `valueDiagTag` 891015192c6SRiver Riddle /// is the tag used when describing a value within a diagnostic, e.g. 892015192c6SRiver Riddle /// "operand". 8930de16fafSRamkumar Ramachandra LogicalResult remapValues(StringRef valueDiagTag, 8940de16fafSRamkumar Ramachandra std::optional<Location> inputLoc, 895015192c6SRiver Riddle PatternRewriter &rewriter, ValueRange values, 896b6eb26fdSRiver Riddle SmallVectorImpl<Value> &remapped); 897b6eb26fdSRiver Riddle 898b6eb26fdSRiver Riddle /// Returns true if the given operation is ignored, and does not need to be 899b6eb26fdSRiver Riddle /// converted. 900b6eb26fdSRiver Riddle bool isOpIgnored(Operation *op) const; 901b6eb26fdSRiver Riddle 902b6eb26fdSRiver Riddle /// Recursively marks the nested operations under 'op' as ignored. This 903b6eb26fdSRiver Riddle /// removes them from being considered for legalization. 904b6eb26fdSRiver Riddle void markNestedOpsIgnored(Operation *op); 905b6eb26fdSRiver Riddle 906b6eb26fdSRiver Riddle //===--------------------------------------------------------------------===// 907b6eb26fdSRiver Riddle // Type Conversion 908b6eb26fdSRiver Riddle //===--------------------------------------------------------------------===// 909b6eb26fdSRiver Riddle 910b6eb26fdSRiver Riddle /// Convert the signature of the given block. 911b6eb26fdSRiver Riddle FailureOr<Block *> convertBlockSignature( 912015192c6SRiver Riddle Block *block, TypeConverter *converter, 913b6eb26fdSRiver Riddle TypeConverter::SignatureConversion *conversion = nullptr); 914b6eb26fdSRiver Riddle 915223dcdcfSSean Silva /// Apply a signature conversion on the given region, using `converter` for 916223dcdcfSSean Silva /// materializations if not null. 917b6eb26fdSRiver Riddle Block * 918b6eb26fdSRiver Riddle applySignatureConversion(Region *region, 919223dcdcfSSean Silva TypeConverter::SignatureConversion &conversion, 920223dcdcfSSean Silva TypeConverter *converter); 921b6eb26fdSRiver Riddle 922b6eb26fdSRiver Riddle /// Convert the types of block arguments within the given region. 923b6eb26fdSRiver Riddle FailureOr<Block *> 924b6eb26fdSRiver Riddle convertRegionTypes(Region *region, TypeConverter &converter, 925b6eb26fdSRiver Riddle TypeConverter::SignatureConversion *entryConversion); 926b6eb26fdSRiver Riddle 9273b021fbdSKareemErgawy-TomTom /// Convert the types of non-entry block arguments within the given region. 928aa6eb2afSKareemErgawy-TomTom LogicalResult convertNonEntryRegionTypes( 929aa6eb2afSKareemErgawy-TomTom Region *region, TypeConverter &converter, 930aa6eb2afSKareemErgawy-TomTom ArrayRef<TypeConverter::SignatureConversion> blockConversions = {}); 9313b021fbdSKareemErgawy-TomTom 932b6eb26fdSRiver Riddle //===--------------------------------------------------------------------===// 933b6eb26fdSRiver Riddle // Rewriter Notification Hooks 934b6eb26fdSRiver Riddle //===--------------------------------------------------------------------===// 935b6eb26fdSRiver Riddle 936b6eb26fdSRiver Riddle /// PatternRewriter hook for replacing the results of an operation. 937b6eb26fdSRiver Riddle void notifyOpReplaced(Operation *op, ValueRange newValues); 938b6eb26fdSRiver Riddle 939b6eb26fdSRiver Riddle /// Notifies that a block is about to be erased. 940b6eb26fdSRiver Riddle void notifyBlockIsBeingErased(Block *block); 941b6eb26fdSRiver Riddle 942b6eb26fdSRiver Riddle /// Notifies that a block was created. 943b6eb26fdSRiver Riddle void notifyCreatedBlock(Block *block); 944b6eb26fdSRiver Riddle 945b6eb26fdSRiver Riddle /// Notifies that a block was split. 946b6eb26fdSRiver Riddle void notifySplitBlock(Block *block, Block *continuation); 947b6eb26fdSRiver Riddle 948b6eb26fdSRiver Riddle /// Notifies that `block` is being merged with `srcBlock`. 949b6eb26fdSRiver Riddle void notifyBlocksBeingMerged(Block *block, Block *srcBlock); 950b6eb26fdSRiver Riddle 951b6eb26fdSRiver Riddle /// Notifies that the blocks of a region are about to be moved. 952b6eb26fdSRiver Riddle void notifyRegionIsBeingInlinedBefore(Region ®ion, Region &parent, 953b6eb26fdSRiver Riddle Region::iterator before); 954b6eb26fdSRiver Riddle 955b6eb26fdSRiver Riddle /// Notifies that the blocks of a region were cloned into another. 956b6eb26fdSRiver Riddle void notifyRegionWasClonedBefore(iterator_range<Region::iterator> &blocks, 957b6eb26fdSRiver Riddle Location origRegionLoc); 958b6eb26fdSRiver Riddle 959b6eb26fdSRiver Riddle /// Notifies that a pattern match failed for the given reason. 960b6eb26fdSRiver Riddle LogicalResult 961b6eb26fdSRiver Riddle notifyMatchFailure(Location loc, 962b6eb26fdSRiver Riddle function_ref<void(Diagnostic &)> reasonCallback); 963b6eb26fdSRiver Riddle 964b6eb26fdSRiver Riddle //===--------------------------------------------------------------------===// 965b6eb26fdSRiver Riddle // State 966b6eb26fdSRiver Riddle //===--------------------------------------------------------------------===// 967b6eb26fdSRiver Riddle 968b6eb26fdSRiver Riddle // Mapping between replaced values that differ in type. This happens when 969b6eb26fdSRiver Riddle // replacing a value with one of a different type. 970b6eb26fdSRiver Riddle ConversionValueMapping mapping; 971b6eb26fdSRiver Riddle 972b6eb26fdSRiver Riddle /// Utility used to convert block arguments. 973b6eb26fdSRiver Riddle ArgConverter argConverter; 974b6eb26fdSRiver Riddle 975b6eb26fdSRiver Riddle /// Ordered vector of all of the newly created operations during conversion. 976015192c6SRiver Riddle SmallVector<Operation *> createdOps; 977015192c6SRiver Riddle 978015192c6SRiver Riddle /// Ordered vector of all unresolved type conversion materializations during 979015192c6SRiver Riddle /// conversion. 980015192c6SRiver Riddle SmallVector<UnresolvedMaterialization> unresolvedMaterializations; 981b6eb26fdSRiver Riddle 982b6eb26fdSRiver Riddle /// Ordered map of requested operation replacements. 983b6eb26fdSRiver Riddle llvm::MapVector<Operation *, OpReplacement> replacements; 984b6eb26fdSRiver Riddle 985b6eb26fdSRiver Riddle /// Ordered vector of any requested block argument replacements. 986b6eb26fdSRiver Riddle SmallVector<BlockArgument, 4> argReplacements; 987b6eb26fdSRiver Riddle 988b6eb26fdSRiver Riddle /// Ordered list of block operations (creations, splits, motions). 989b6eb26fdSRiver Riddle SmallVector<BlockAction, 4> blockActions; 990b6eb26fdSRiver Riddle 991b6eb26fdSRiver Riddle /// A set of operations that should no longer be considered for legalization, 992b6eb26fdSRiver Riddle /// but were not directly replace/erased/etc. by a pattern. These are 993b6eb26fdSRiver Riddle /// generally child operations of other operations who were 994b6eb26fdSRiver Riddle /// replaced/erased/etc. This is not meant to be an exhaustive list of all 995b6eb26fdSRiver Riddle /// operations, but the minimal set that can be used to detect if a given 996b6eb26fdSRiver Riddle /// operation should be `ignored`. For example, we may add the operations that 997b6eb26fdSRiver Riddle /// define non-empty regions to the set, but not any of the others. This 998b6eb26fdSRiver Riddle /// simplifies the amount of memory needed as we can query if the parent 999b6eb26fdSRiver Riddle /// operation was ignored. 10004efb7754SRiver Riddle SetVector<Operation *> ignoredOps; 1001b6eb26fdSRiver Riddle 1002b6eb26fdSRiver Riddle /// A transaction state for each of operations that were updated in-place. 1003b6eb26fdSRiver Riddle SmallVector<OperationTransactionState, 4> rootUpdates; 1004b6eb26fdSRiver Riddle 1005b6eb26fdSRiver Riddle /// A vector of indices into `replacements` of operations that were replaced 1006b6eb26fdSRiver Riddle /// with values with different result types than the original operation, e.g. 1007b6eb26fdSRiver Riddle /// 1->N conversion of some kind. 1008b6eb26fdSRiver Riddle SmallVector<unsigned, 4> operationsWithChangedResults; 1009b6eb26fdSRiver Riddle 101001b55f16SRiver Riddle /// The current type converter, or nullptr if no type converter is currently 101101b55f16SRiver Riddle /// active. 101201b55f16SRiver Riddle TypeConverter *currentTypeConverter = nullptr; 1013b6eb26fdSRiver Riddle 1014b8c6b152SChia-hung Duan /// This allows the user to collect the match failure message. 1015b8c6b152SChia-hung Duan function_ref<void(Diagnostic &)> notifyCallback; 1016b8c6b152SChia-hung Duan 1017b6eb26fdSRiver Riddle #ifndef NDEBUG 1018b6eb26fdSRiver Riddle /// A set of operations that have pending updates. This tracking isn't 1019b6eb26fdSRiver Riddle /// strictly necessary, and is thus only active during debug builds for extra 1020b6eb26fdSRiver Riddle /// verification. 1021b6eb26fdSRiver Riddle SmallPtrSet<Operation *, 1> pendingRootUpdates; 1022b6eb26fdSRiver Riddle 1023b6eb26fdSRiver Riddle /// A logger used to emit diagnostics during the conversion process. 1024b6eb26fdSRiver Riddle llvm::ScopedPrinter logger{llvm::dbgs()}; 1025b6eb26fdSRiver Riddle #endif 1026b6eb26fdSRiver Riddle }; 1027be0a7e9fSMehdi Amini } // namespace detail 1028be0a7e9fSMehdi Amini } // namespace mlir 1029b6eb26fdSRiver Riddle 1030b6eb26fdSRiver Riddle /// Detach any operations nested in the given operation from their parent 1031b6eb26fdSRiver Riddle /// blocks, and erase the given operation. This can be used when the nested 1032b6eb26fdSRiver Riddle /// operations are scheduled for erasure themselves, so deleting the regions of 1033b6eb26fdSRiver Riddle /// the given operation together with their content would result in double-free. 1034b6eb26fdSRiver Riddle /// This happens, for example, when rolling back op creation in the reverse 1035b6eb26fdSRiver Riddle /// order and if the nested ops were created before the parent op. This function 1036b6eb26fdSRiver Riddle /// does not need to collect nested ops recursively because it is expected to 1037b6eb26fdSRiver Riddle /// also be called for each nested op when it is about to be deleted. 1038b6eb26fdSRiver Riddle static void detachNestedAndErase(Operation *op) { 1039b6eb26fdSRiver Riddle for (Region ®ion : op->getRegions()) { 1040b6eb26fdSRiver Riddle for (Block &block : region.getBlocks()) { 1041b6eb26fdSRiver Riddle while (!block.getOperations().empty()) 1042b6eb26fdSRiver Riddle block.getOperations().remove(block.getOperations().begin()); 1043b6eb26fdSRiver Riddle block.dropAllDefinedValueUses(); 1044b6eb26fdSRiver Riddle } 1045b6eb26fdSRiver Riddle } 10463bd620d4STres Popp op->dropAllUses(); 1047b6eb26fdSRiver Riddle op->erase(); 1048b6eb26fdSRiver Riddle } 1049b6eb26fdSRiver Riddle 1050b6eb26fdSRiver Riddle void ConversionPatternRewriterImpl::discardRewrites() { 1051b6eb26fdSRiver Riddle // Reset any operations that were updated in place. 1052b6eb26fdSRiver Riddle for (auto &state : rootUpdates) 1053b6eb26fdSRiver Riddle state.resetOperation(); 1054b6eb26fdSRiver Riddle 1055b6eb26fdSRiver Riddle undoBlockActions(); 1056b6eb26fdSRiver Riddle 1057b6eb26fdSRiver Riddle // Remove any newly created ops. 1058015192c6SRiver Riddle for (UnresolvedMaterialization &materialization : unresolvedMaterializations) 1059015192c6SRiver Riddle detachNestedAndErase(materialization.getOp()); 1060b6eb26fdSRiver Riddle for (auto *op : llvm::reverse(createdOps)) 1061b6eb26fdSRiver Riddle detachNestedAndErase(op); 1062b6eb26fdSRiver Riddle } 1063b6eb26fdSRiver Riddle 1064b6eb26fdSRiver Riddle void ConversionPatternRewriterImpl::applyRewrites() { 1065b6eb26fdSRiver Riddle // Apply all of the rewrites replacements requested during conversion. 1066b6eb26fdSRiver Riddle for (auto &repl : replacements) { 1067b6eb26fdSRiver Riddle for (OpResult result : repl.first->getResults()) 1068015192c6SRiver Riddle if (Value newValue = mapping.lookupOrNull(result, result.getType())) 1069b6eb26fdSRiver Riddle result.replaceAllUsesWith(newValue); 1070b6eb26fdSRiver Riddle 1071b6eb26fdSRiver Riddle // If this operation defines any regions, drop any pending argument 1072b6eb26fdSRiver Riddle // rewrites. 1073b6eb26fdSRiver Riddle if (repl.first->getNumRegions()) 1074b6eb26fdSRiver Riddle argConverter.notifyOpRemoved(repl.first); 1075b6eb26fdSRiver Riddle } 1076b6eb26fdSRiver Riddle 1077b6eb26fdSRiver Riddle // Apply all of the requested argument replacements. 1078b6eb26fdSRiver Riddle for (BlockArgument arg : argReplacements) { 1079015192c6SRiver Riddle Value repl = mapping.lookupOrNull(arg, arg.getType()); 1080015192c6SRiver Riddle if (!repl) 1081015192c6SRiver Riddle continue; 1082015192c6SRiver Riddle 1083b6eb26fdSRiver Riddle if (repl.isa<BlockArgument>()) { 1084b6eb26fdSRiver Riddle arg.replaceAllUsesWith(repl); 1085b6eb26fdSRiver Riddle continue; 1086b6eb26fdSRiver Riddle } 1087b6eb26fdSRiver Riddle 1088b6eb26fdSRiver Riddle // If the replacement value is an operation, we check to make sure that we 1089b6eb26fdSRiver Riddle // don't replace uses that are within the parent operation of the 1090b6eb26fdSRiver Riddle // replacement value. 1091b6eb26fdSRiver Riddle Operation *replOp = repl.cast<OpResult>().getOwner(); 1092b6eb26fdSRiver Riddle Block *replBlock = replOp->getBlock(); 1093b6eb26fdSRiver Riddle arg.replaceUsesWithIf(repl, [&](OpOperand &operand) { 1094b6eb26fdSRiver Riddle Operation *user = operand.getOwner(); 1095b6eb26fdSRiver Riddle return user->getBlock() != replBlock || replOp->isBeforeInBlock(user); 1096b6eb26fdSRiver Riddle }); 1097b6eb26fdSRiver Riddle } 1098b6eb26fdSRiver Riddle 1099015192c6SRiver Riddle // Drop all of the unresolved materialization operations created during 1100015192c6SRiver Riddle // conversion. 1101015192c6SRiver Riddle for (auto &mat : unresolvedMaterializations) { 1102015192c6SRiver Riddle mat.getOp()->dropAllUses(); 1103015192c6SRiver Riddle mat.getOp()->erase(); 1104015192c6SRiver Riddle } 1105015192c6SRiver Riddle 1106b6eb26fdSRiver Riddle // In a second pass, erase all of the replaced operations in reverse. This 1107b6eb26fdSRiver Riddle // allows processing nested operations before their parent region is 1108a360a978SMehdi Amini // destroyed. Because we process in reverse order, producers may be deleted 1109a360a978SMehdi Amini // before their users (a pattern deleting a producer and then the consumer) 1110a360a978SMehdi Amini // so we first drop all uses explicitly. 1111a360a978SMehdi Amini for (auto &repl : llvm::reverse(replacements)) { 1112a360a978SMehdi Amini repl.first->dropAllUses(); 1113b6eb26fdSRiver Riddle repl.first->erase(); 1114a360a978SMehdi Amini } 1115b6eb26fdSRiver Riddle 1116b6eb26fdSRiver Riddle argConverter.applyRewrites(mapping); 1117b6eb26fdSRiver Riddle 1118b6eb26fdSRiver Riddle // Now that the ops have been erased, also erase dangling blocks. 1119b6eb26fdSRiver Riddle eraseDanglingBlocks(); 1120b6eb26fdSRiver Riddle } 1121b6eb26fdSRiver Riddle 1122b6eb26fdSRiver Riddle //===----------------------------------------------------------------------===// 1123b6eb26fdSRiver Riddle // State Management 1124b6eb26fdSRiver Riddle 1125b6eb26fdSRiver Riddle RewriterState ConversionPatternRewriterImpl::getCurrentState() { 1126015192c6SRiver Riddle return RewriterState(createdOps.size(), unresolvedMaterializations.size(), 1127015192c6SRiver Riddle replacements.size(), argReplacements.size(), 1128015192c6SRiver Riddle blockActions.size(), ignoredOps.size(), 1129015192c6SRiver Riddle rootUpdates.size()); 1130b6eb26fdSRiver Riddle } 1131b6eb26fdSRiver Riddle 1132b6eb26fdSRiver Riddle void ConversionPatternRewriterImpl::resetState(RewriterState state) { 1133b6eb26fdSRiver Riddle // Reset any operations that were updated in place. 1134b6eb26fdSRiver Riddle for (unsigned i = state.numRootUpdates, e = rootUpdates.size(); i != e; ++i) 1135b6eb26fdSRiver Riddle rootUpdates[i].resetOperation(); 1136b6eb26fdSRiver Riddle rootUpdates.resize(state.numRootUpdates); 1137b6eb26fdSRiver Riddle 1138b6eb26fdSRiver Riddle // Reset any replaced arguments. 1139b6eb26fdSRiver Riddle for (BlockArgument replacedArg : 1140b6eb26fdSRiver Riddle llvm::drop_begin(argReplacements, state.numArgReplacements)) 1141b6eb26fdSRiver Riddle mapping.erase(replacedArg); 1142b6eb26fdSRiver Riddle argReplacements.resize(state.numArgReplacements); 1143b6eb26fdSRiver Riddle 1144b6eb26fdSRiver Riddle // Undo any block actions. 1145b6eb26fdSRiver Riddle undoBlockActions(state.numBlockActions); 1146b6eb26fdSRiver Riddle 1147b6eb26fdSRiver Riddle // Reset any replaced operations and undo any saved mappings. 1148b6eb26fdSRiver Riddle for (auto &repl : llvm::drop_begin(replacements, state.numReplacements)) 1149b6eb26fdSRiver Riddle for (auto result : repl.first->getResults()) 1150b6eb26fdSRiver Riddle mapping.erase(result); 1151b6eb26fdSRiver Riddle while (replacements.size() != state.numReplacements) 1152b6eb26fdSRiver Riddle replacements.pop_back(); 1153b6eb26fdSRiver Riddle 1154015192c6SRiver Riddle // Pop all of the newly inserted materializations. 1155015192c6SRiver Riddle while (unresolvedMaterializations.size() != 1156015192c6SRiver Riddle state.numUnresolvedMaterializations) { 1157015192c6SRiver Riddle UnresolvedMaterialization mat = unresolvedMaterializations.pop_back_val(); 1158015192c6SRiver Riddle UnrealizedConversionCastOp op = mat.getOp(); 1159015192c6SRiver Riddle 1160015192c6SRiver Riddle // If this was a target materialization, drop the mapping that was inserted. 1161015192c6SRiver Riddle if (mat.getKind() == UnresolvedMaterialization::Target) { 1162015192c6SRiver Riddle for (Value input : op->getOperands()) 1163015192c6SRiver Riddle mapping.erase(input); 1164015192c6SRiver Riddle } 1165015192c6SRiver Riddle detachNestedAndErase(op); 1166015192c6SRiver Riddle } 1167015192c6SRiver Riddle 1168b6eb26fdSRiver Riddle // Pop all of the newly created operations. 1169b6eb26fdSRiver Riddle while (createdOps.size() != state.numCreatedOps) { 1170b6eb26fdSRiver Riddle detachNestedAndErase(createdOps.back()); 1171b6eb26fdSRiver Riddle createdOps.pop_back(); 1172b6eb26fdSRiver Riddle } 1173b6eb26fdSRiver Riddle 1174b6eb26fdSRiver Riddle // Pop all of the recorded ignored operations that are no longer valid. 1175b6eb26fdSRiver Riddle while (ignoredOps.size() != state.numIgnoredOperations) 1176b6eb26fdSRiver Riddle ignoredOps.pop_back(); 1177b6eb26fdSRiver Riddle 1178b6eb26fdSRiver Riddle // Reset operations with changed results. 1179b6eb26fdSRiver Riddle while (!operationsWithChangedResults.empty() && 1180b6eb26fdSRiver Riddle operationsWithChangedResults.back() >= state.numReplacements) 1181b6eb26fdSRiver Riddle operationsWithChangedResults.pop_back(); 1182b6eb26fdSRiver Riddle } 1183b6eb26fdSRiver Riddle 1184b6eb26fdSRiver Riddle void ConversionPatternRewriterImpl::eraseDanglingBlocks() { 1185b6eb26fdSRiver Riddle for (auto &action : blockActions) 1186b6eb26fdSRiver Riddle if (action.kind == BlockActionKind::Erase) 1187b6eb26fdSRiver Riddle delete action.block; 1188b6eb26fdSRiver Riddle } 1189b6eb26fdSRiver Riddle 1190b6eb26fdSRiver Riddle void ConversionPatternRewriterImpl::undoBlockActions( 1191b6eb26fdSRiver Riddle unsigned numActionsToKeep) { 1192b6eb26fdSRiver Riddle for (auto &action : 1193b6eb26fdSRiver Riddle llvm::reverse(llvm::drop_begin(blockActions, numActionsToKeep))) { 1194b6eb26fdSRiver Riddle switch (action.kind) { 1195b6eb26fdSRiver Riddle // Delete the created block. 1196b6eb26fdSRiver Riddle case BlockActionKind::Create: { 1197b6eb26fdSRiver Riddle // Unlink all of the operations within this block, they will be deleted 1198b6eb26fdSRiver Riddle // separately. 1199b6eb26fdSRiver Riddle auto &blockOps = action.block->getOperations(); 1200b6eb26fdSRiver Riddle while (!blockOps.empty()) 1201b6eb26fdSRiver Riddle blockOps.remove(blockOps.begin()); 1202b6eb26fdSRiver Riddle action.block->dropAllDefinedValueUses(); 1203b6eb26fdSRiver Riddle action.block->erase(); 1204b6eb26fdSRiver Riddle break; 1205b6eb26fdSRiver Riddle } 1206b6eb26fdSRiver Riddle // Put the block (owned by action) back into its original position. 1207b6eb26fdSRiver Riddle case BlockActionKind::Erase: { 1208b6eb26fdSRiver Riddle auto &blockList = action.originalPosition.region->getBlocks(); 1209b6eb26fdSRiver Riddle Block *insertAfterBlock = action.originalPosition.insertAfterBlock; 1210b6eb26fdSRiver Riddle blockList.insert((insertAfterBlock 1211b6eb26fdSRiver Riddle ? std::next(Region::iterator(insertAfterBlock)) 1212b0750e2dSTres Popp : blockList.begin()), 1213b6eb26fdSRiver Riddle action.block); 1214b6eb26fdSRiver Riddle break; 1215b6eb26fdSRiver Riddle } 1216b6eb26fdSRiver Riddle // Split the block at the position which was originally the end of the 1217b6eb26fdSRiver Riddle // destination block (owned by action), and put the instructions back into 1218b6eb26fdSRiver Riddle // the block used before the merge. 1219b6eb26fdSRiver Riddle case BlockActionKind::Merge: { 1220b6eb26fdSRiver Riddle Block *sourceBlock = action.mergeInfo.sourceBlock; 1221b6eb26fdSRiver Riddle Block::iterator splitPoint = 1222b6eb26fdSRiver Riddle (action.mergeInfo.destBlockLastInst 1223b6eb26fdSRiver Riddle ? ++Block::iterator(action.mergeInfo.destBlockLastInst) 1224b6eb26fdSRiver Riddle : action.block->begin()); 1225b6eb26fdSRiver Riddle sourceBlock->getOperations().splice(sourceBlock->begin(), 1226b6eb26fdSRiver Riddle action.block->getOperations(), 1227b6eb26fdSRiver Riddle splitPoint, action.block->end()); 1228b6eb26fdSRiver Riddle break; 1229b6eb26fdSRiver Riddle } 1230b6eb26fdSRiver Riddle // Move the block back to its original position. 1231b6eb26fdSRiver Riddle case BlockActionKind::Move: { 1232b6eb26fdSRiver Riddle Region *originalRegion = action.originalPosition.region; 1233b6eb26fdSRiver Riddle Block *insertAfterBlock = action.originalPosition.insertAfterBlock; 1234b6eb26fdSRiver Riddle originalRegion->getBlocks().splice( 1235b6eb26fdSRiver Riddle (insertAfterBlock ? std::next(Region::iterator(insertAfterBlock)) 1236b6eb26fdSRiver Riddle : originalRegion->end()), 1237b6eb26fdSRiver Riddle action.block->getParent()->getBlocks(), action.block); 1238b6eb26fdSRiver Riddle break; 1239b6eb26fdSRiver Riddle } 1240b6eb26fdSRiver Riddle // Merge back the block that was split out. 1241b6eb26fdSRiver Riddle case BlockActionKind::Split: { 1242b6eb26fdSRiver Riddle action.originalBlock->getOperations().splice( 1243b6eb26fdSRiver Riddle action.originalBlock->end(), action.block->getOperations()); 1244b6eb26fdSRiver Riddle action.block->dropAllDefinedValueUses(); 1245b6eb26fdSRiver Riddle action.block->erase(); 1246b6eb26fdSRiver Riddle break; 1247b6eb26fdSRiver Riddle } 1248b6eb26fdSRiver Riddle // Undo the type conversion. 1249b6eb26fdSRiver Riddle case BlockActionKind::TypeConversion: { 1250b6eb26fdSRiver Riddle argConverter.discardRewrites(action.block); 1251b6eb26fdSRiver Riddle break; 1252b6eb26fdSRiver Riddle } 1253b6eb26fdSRiver Riddle } 1254b6eb26fdSRiver Riddle } 1255b6eb26fdSRiver Riddle blockActions.resize(numActionsToKeep); 1256b6eb26fdSRiver Riddle } 1257b6eb26fdSRiver Riddle 1258b6eb26fdSRiver Riddle LogicalResult ConversionPatternRewriterImpl::remapValues( 12590de16fafSRamkumar Ramachandra StringRef valueDiagTag, std::optional<Location> inputLoc, 1260015192c6SRiver Riddle PatternRewriter &rewriter, ValueRange values, 1261015192c6SRiver Riddle SmallVectorImpl<Value> &remapped) { 1262015192c6SRiver Riddle remapped.reserve(llvm::size(values)); 1263b6eb26fdSRiver Riddle 1264b6eb26fdSRiver Riddle SmallVector<Type, 1> legalTypes; 1265e4853be2SMehdi Amini for (const auto &it : llvm::enumerate(values)) { 1266b6eb26fdSRiver Riddle Value operand = it.value(); 1267b6eb26fdSRiver Riddle Type origType = operand.getType(); 1268b6eb26fdSRiver Riddle 12699ca67d7fSAlexander Belyaev // If a converter was provided, get the desired legal types for this 12709ca67d7fSAlexander Belyaev // operand. 12719ca67d7fSAlexander Belyaev Type desiredType; 1272015192c6SRiver Riddle if (currentTypeConverter) { 1273f8184d4cSAlexander Belyaev // If there is no legal conversion, fail to match this pattern. 12749ca67d7fSAlexander Belyaev legalTypes.clear(); 1275015192c6SRiver Riddle if (failed(currentTypeConverter->convertType(origType, legalTypes))) { 1276015192c6SRiver Riddle Location operandLoc = inputLoc ? *inputLoc : operand.getLoc(); 1277015192c6SRiver Riddle return notifyMatchFailure(operandLoc, [=](Diagnostic &diag) { 1278015192c6SRiver Riddle diag << "unable to convert type for " << valueDiagTag << " #" 1279015192c6SRiver Riddle << it.index() << ", type was " << origType; 1280b6eb26fdSRiver Riddle }); 1281b6eb26fdSRiver Riddle } 1282b6eb26fdSRiver Riddle // TODO: There currently isn't any mechanism to do 1->N type conversion 12839ca67d7fSAlexander Belyaev // via the PatternRewriter replacement API, so for now we just ignore it. 12849ca67d7fSAlexander Belyaev if (legalTypes.size() == 1) 12859ca67d7fSAlexander Belyaev desiredType = legalTypes.front(); 12869ca67d7fSAlexander Belyaev } else { 12879ca67d7fSAlexander Belyaev // TODO: What we should do here is just set `desiredType` to `origType` 12889ca67d7fSAlexander Belyaev // and then handle the necessary type conversions after the conversion 12899ca67d7fSAlexander Belyaev // process has finished. Unfortunately a lot of patterns currently rely on 12909ca67d7fSAlexander Belyaev // receiving the new operands even if the types change, so we keep the 12919ca67d7fSAlexander Belyaev // original behavior here for now until all of the patterns relying on 12929ca67d7fSAlexander Belyaev // this get updated. 1293b6eb26fdSRiver Riddle } 12949ca67d7fSAlexander Belyaev Value newOperand = mapping.lookupOrDefault(operand, desiredType); 12959ca67d7fSAlexander Belyaev 12969ca67d7fSAlexander Belyaev // Handle the case where the conversion was 1->1 and the new operand type 12979ca67d7fSAlexander Belyaev // isn't legal. 12989ca67d7fSAlexander Belyaev Type newOperandType = newOperand.getType(); 1299015192c6SRiver Riddle if (currentTypeConverter && desiredType && newOperandType != desiredType) { 1300015192c6SRiver Riddle Location operandLoc = inputLoc ? *inputLoc : operand.getLoc(); 1301015192c6SRiver Riddle Value castValue = buildUnresolvedTargetMaterialization( 1302015192c6SRiver Riddle operandLoc, newOperand, desiredType, currentTypeConverter, 1303015192c6SRiver Riddle unresolvedMaterializations); 1304015192c6SRiver Riddle mapping.map(mapping.lookupOrDefault(newOperand), castValue); 1305015192c6SRiver Riddle newOperand = castValue; 1306b6eb26fdSRiver Riddle } 1307b6eb26fdSRiver Riddle remapped.push_back(newOperand); 1308b6eb26fdSRiver Riddle } 1309b6eb26fdSRiver Riddle return success(); 1310b6eb26fdSRiver Riddle } 1311b6eb26fdSRiver Riddle 1312b6eb26fdSRiver Riddle bool ConversionPatternRewriterImpl::isOpIgnored(Operation *op) const { 1313b6eb26fdSRiver Riddle // Check to see if this operation was replaced or its parent ignored. 1314b6eb26fdSRiver Riddle return replacements.count(op) || ignoredOps.count(op->getParentOp()); 1315b6eb26fdSRiver Riddle } 1316b6eb26fdSRiver Riddle 1317b6eb26fdSRiver Riddle void ConversionPatternRewriterImpl::markNestedOpsIgnored(Operation *op) { 1318b6eb26fdSRiver Riddle // Walk this operation and collect nested operations that define non-empty 1319b6eb26fdSRiver Riddle // regions. We mark such operations as 'ignored' so that we know we don't have 1320b6eb26fdSRiver Riddle // to convert them, or their nested ops. 1321b6eb26fdSRiver Riddle if (op->getNumRegions() == 0) 1322b6eb26fdSRiver Riddle return; 1323b6eb26fdSRiver Riddle op->walk([&](Operation *op) { 1324b6eb26fdSRiver Riddle if (llvm::any_of(op->getRegions(), 1325b6eb26fdSRiver Riddle [](Region ®ion) { return !region.empty(); })) 1326b6eb26fdSRiver Riddle ignoredOps.insert(op); 1327b6eb26fdSRiver Riddle }); 1328b6eb26fdSRiver Riddle } 1329b6eb26fdSRiver Riddle 1330b6eb26fdSRiver Riddle //===----------------------------------------------------------------------===// 1331b6eb26fdSRiver Riddle // Type Conversion 1332b6eb26fdSRiver Riddle 1333b6eb26fdSRiver Riddle FailureOr<Block *> ConversionPatternRewriterImpl::convertBlockSignature( 1334015192c6SRiver Riddle Block *block, TypeConverter *converter, 1335b6eb26fdSRiver Riddle TypeConverter::SignatureConversion *conversion) { 1336b6eb26fdSRiver Riddle FailureOr<Block *> result = 13370409eb28SAlex Zinenko conversion ? argConverter.applySignatureConversion( 13380409eb28SAlex Zinenko block, converter, *conversion, mapping, argReplacements) 13390409eb28SAlex Zinenko : argConverter.convertSignature(block, converter, mapping, 13400409eb28SAlex Zinenko argReplacements); 134156272257SStella Laurenzo if (failed(result)) 134256272257SStella Laurenzo return failure(); 13436d5fc1e3SKazu Hirata if (Block *newBlock = *result) { 1344b6eb26fdSRiver Riddle if (newBlock != block) 1345b6eb26fdSRiver Riddle blockActions.push_back(BlockAction::getTypeConversion(newBlock)); 1346b6eb26fdSRiver Riddle } 1347b6eb26fdSRiver Riddle return result; 1348b6eb26fdSRiver Riddle } 1349b6eb26fdSRiver Riddle 1350b6eb26fdSRiver Riddle Block *ConversionPatternRewriterImpl::applySignatureConversion( 1351223dcdcfSSean Silva Region *region, TypeConverter::SignatureConversion &conversion, 1352223dcdcfSSean Silva TypeConverter *converter) { 1353015192c6SRiver Riddle if (!region->empty()) 1354015192c6SRiver Riddle return *convertBlockSignature(®ion->front(), converter, &conversion); 1355b6eb26fdSRiver Riddle return nullptr; 1356b6eb26fdSRiver Riddle } 1357b6eb26fdSRiver Riddle 1358b6eb26fdSRiver Riddle FailureOr<Block *> ConversionPatternRewriterImpl::convertRegionTypes( 1359b6eb26fdSRiver Riddle Region *region, TypeConverter &converter, 1360b6eb26fdSRiver Riddle TypeConverter::SignatureConversion *entryConversion) { 1361b6eb26fdSRiver Riddle argConverter.setConverter(region, &converter); 1362b6eb26fdSRiver Riddle if (region->empty()) 1363b6eb26fdSRiver Riddle return nullptr; 1364b6eb26fdSRiver Riddle 13653b021fbdSKareemErgawy-TomTom if (failed(convertNonEntryRegionTypes(region, converter))) 13663b021fbdSKareemErgawy-TomTom return failure(); 13673b021fbdSKareemErgawy-TomTom 1368b6eb26fdSRiver Riddle FailureOr<Block *> newEntry = 1369015192c6SRiver Riddle convertBlockSignature(®ion->front(), &converter, entryConversion); 13703b021fbdSKareemErgawy-TomTom return newEntry; 13713b021fbdSKareemErgawy-TomTom } 13723b021fbdSKareemErgawy-TomTom 13733b021fbdSKareemErgawy-TomTom LogicalResult ConversionPatternRewriterImpl::convertNonEntryRegionTypes( 1374aa6eb2afSKareemErgawy-TomTom Region *region, TypeConverter &converter, 1375aa6eb2afSKareemErgawy-TomTom ArrayRef<TypeConverter::SignatureConversion> blockConversions) { 13763b021fbdSKareemErgawy-TomTom argConverter.setConverter(region, &converter); 13773b021fbdSKareemErgawy-TomTom if (region->empty()) 13783b021fbdSKareemErgawy-TomTom return success(); 13793b021fbdSKareemErgawy-TomTom 13803b021fbdSKareemErgawy-TomTom // Convert the arguments of each block within the region. 1381aa6eb2afSKareemErgawy-TomTom int blockIdx = 0; 1382aa6eb2afSKareemErgawy-TomTom assert((blockConversions.empty() || 1383aa6eb2afSKareemErgawy-TomTom blockConversions.size() == region->getBlocks().size() - 1) && 1384aa6eb2afSKareemErgawy-TomTom "expected either to provide no SignatureConversions at all or to " 1385aa6eb2afSKareemErgawy-TomTom "provide a SignatureConversion for each non-entry block"); 1386aa6eb2afSKareemErgawy-TomTom 1387aa6eb2afSKareemErgawy-TomTom for (Block &block : 1388aa6eb2afSKareemErgawy-TomTom llvm::make_early_inc_range(llvm::drop_begin(*region, 1))) { 1389aa6eb2afSKareemErgawy-TomTom TypeConverter::SignatureConversion *blockConversion = 1390aa6eb2afSKareemErgawy-TomTom blockConversions.empty() 1391aa6eb2afSKareemErgawy-TomTom ? nullptr 1392aa6eb2afSKareemErgawy-TomTom : const_cast<TypeConverter::SignatureConversion *>( 1393aa6eb2afSKareemErgawy-TomTom &blockConversions[blockIdx++]); 1394aa6eb2afSKareemErgawy-TomTom 1395015192c6SRiver Riddle if (failed(convertBlockSignature(&block, &converter, blockConversion))) 1396b6eb26fdSRiver Riddle return failure(); 1397aa6eb2afSKareemErgawy-TomTom } 13983b021fbdSKareemErgawy-TomTom return success(); 1399b6eb26fdSRiver Riddle } 1400b6eb26fdSRiver Riddle 1401b6eb26fdSRiver Riddle //===----------------------------------------------------------------------===// 1402b6eb26fdSRiver Riddle // Rewriter Notification Hooks 1403b6eb26fdSRiver Riddle 1404b6eb26fdSRiver Riddle void ConversionPatternRewriterImpl::notifyOpReplaced(Operation *op, 1405b6eb26fdSRiver Riddle ValueRange newValues) { 1406b6eb26fdSRiver Riddle assert(newValues.size() == op->getNumResults()); 1407b6eb26fdSRiver Riddle assert(!replacements.count(op) && "operation was already replaced"); 1408b6eb26fdSRiver Riddle 1409b6eb26fdSRiver Riddle // Track if any of the results changed, e.g. erased and replaced with null. 1410b6eb26fdSRiver Riddle bool resultChanged = false; 1411b6eb26fdSRiver Riddle 1412b6eb26fdSRiver Riddle // Create mappings for each of the new result values. 14139fa59e76SBenjamin Kramer for (auto [newValue, result] : llvm::zip(newValues, op->getResults())) { 1414b6eb26fdSRiver Riddle if (!newValue) { 1415b6eb26fdSRiver Riddle resultChanged = true; 1416b6eb26fdSRiver Riddle continue; 1417b6eb26fdSRiver Riddle } 1418b6eb26fdSRiver Riddle // Remap, and check for any result type changes. 1419b6eb26fdSRiver Riddle mapping.map(result, newValue); 1420b6eb26fdSRiver Riddle resultChanged |= (newValue.getType() != result.getType()); 1421b6eb26fdSRiver Riddle } 1422b6eb26fdSRiver Riddle if (resultChanged) 1423b6eb26fdSRiver Riddle operationsWithChangedResults.push_back(replacements.size()); 1424b6eb26fdSRiver Riddle 1425b6eb26fdSRiver Riddle // Record the requested operation replacement. 142601b55f16SRiver Riddle replacements.insert(std::make_pair(op, OpReplacement(currentTypeConverter))); 1427b6eb26fdSRiver Riddle 1428b6eb26fdSRiver Riddle // Mark this operation as recursively ignored so that we don't need to 1429b6eb26fdSRiver Riddle // convert any nested operations. 1430b6eb26fdSRiver Riddle markNestedOpsIgnored(op); 1431b6eb26fdSRiver Riddle } 1432b6eb26fdSRiver Riddle 1433b6eb26fdSRiver Riddle void ConversionPatternRewriterImpl::notifyBlockIsBeingErased(Block *block) { 1434b6eb26fdSRiver Riddle Region *region = block->getParent(); 1435b6eb26fdSRiver Riddle Block *origPrevBlock = block->getPrevNode(); 1436b6eb26fdSRiver Riddle blockActions.push_back(BlockAction::getErase(block, {region, origPrevBlock})); 1437b6eb26fdSRiver Riddle } 1438b6eb26fdSRiver Riddle 1439b6eb26fdSRiver Riddle void ConversionPatternRewriterImpl::notifyCreatedBlock(Block *block) { 1440b6eb26fdSRiver Riddle blockActions.push_back(BlockAction::getCreate(block)); 1441b6eb26fdSRiver Riddle } 1442b6eb26fdSRiver Riddle 1443b6eb26fdSRiver Riddle void ConversionPatternRewriterImpl::notifySplitBlock(Block *block, 1444b6eb26fdSRiver Riddle Block *continuation) { 1445b6eb26fdSRiver Riddle blockActions.push_back(BlockAction::getSplit(continuation, block)); 1446b6eb26fdSRiver Riddle } 1447b6eb26fdSRiver Riddle 1448b6eb26fdSRiver Riddle void ConversionPatternRewriterImpl::notifyBlocksBeingMerged(Block *block, 1449b6eb26fdSRiver Riddle Block *srcBlock) { 1450b6eb26fdSRiver Riddle blockActions.push_back(BlockAction::getMerge(block, srcBlock)); 1451b6eb26fdSRiver Riddle } 1452b6eb26fdSRiver Riddle 1453b6eb26fdSRiver Riddle void ConversionPatternRewriterImpl::notifyRegionIsBeingInlinedBefore( 1454b6eb26fdSRiver Riddle Region ®ion, Region &parent, Region::iterator before) { 1455cc5b4a86STres Popp if (region.empty()) 1456cc5b4a86STres Popp return; 1457cc5b4a86STres Popp Block *laterBlock = ®ion.back(); 1458cc5b4a86STres Popp for (auto &earlierBlock : llvm::drop_begin(llvm::reverse(region), 1)) { 1459b6eb26fdSRiver Riddle blockActions.push_back( 1460cc5b4a86STres Popp BlockAction::getMove(laterBlock, {®ion, &earlierBlock})); 1461cc5b4a86STres Popp laterBlock = &earlierBlock; 1462b6eb26fdSRiver Riddle } 1463cc5b4a86STres Popp blockActions.push_back(BlockAction::getMove(laterBlock, {®ion, nullptr})); 1464b6eb26fdSRiver Riddle } 1465b6eb26fdSRiver Riddle 1466b6eb26fdSRiver Riddle void ConversionPatternRewriterImpl::notifyRegionWasClonedBefore( 1467b6eb26fdSRiver Riddle iterator_range<Region::iterator> &blocks, Location origRegionLoc) { 1468b6eb26fdSRiver Riddle for (Block &block : blocks) 1469b6eb26fdSRiver Riddle blockActions.push_back(BlockAction::getCreate(&block)); 1470b6eb26fdSRiver Riddle 1471b6eb26fdSRiver Riddle // Compute the conversion set for the inlined region. 1472b6eb26fdSRiver Riddle auto result = computeConversionSet(blocks, origRegionLoc, createdOps); 1473b6eb26fdSRiver Riddle 1474b6eb26fdSRiver Riddle // This original region has already had its conversion set computed, so there 1475b6eb26fdSRiver Riddle // shouldn't be any new failures. 1476b6eb26fdSRiver Riddle (void)result; 1477b6eb26fdSRiver Riddle assert(succeeded(result) && "expected region to have no unreachable blocks"); 1478b6eb26fdSRiver Riddle } 1479b6eb26fdSRiver Riddle 1480b6eb26fdSRiver Riddle LogicalResult ConversionPatternRewriterImpl::notifyMatchFailure( 1481b6eb26fdSRiver Riddle Location loc, function_ref<void(Diagnostic &)> reasonCallback) { 1482b6eb26fdSRiver Riddle LLVM_DEBUG({ 1483b6eb26fdSRiver Riddle Diagnostic diag(loc, DiagnosticSeverity::Remark); 1484b6eb26fdSRiver Riddle reasonCallback(diag); 1485b6eb26fdSRiver Riddle logger.startLine() << "** Failure : " << diag.str() << "\n"; 1486b8c6b152SChia-hung Duan if (notifyCallback) 1487b8c6b152SChia-hung Duan notifyCallback(diag); 1488b6eb26fdSRiver Riddle }); 1489b6eb26fdSRiver Riddle return failure(); 1490b6eb26fdSRiver Riddle } 1491b6eb26fdSRiver Riddle 1492b6eb26fdSRiver Riddle //===----------------------------------------------------------------------===// 1493b6eb26fdSRiver Riddle // ConversionPatternRewriter 1494b6eb26fdSRiver Riddle //===----------------------------------------------------------------------===// 1495b6eb26fdSRiver Riddle 1496b6eb26fdSRiver Riddle ConversionPatternRewriter::ConversionPatternRewriter(MLIRContext *ctx) 1497b6eb26fdSRiver Riddle : PatternRewriter(ctx), 1498c6532830SMatthias Springer impl(new detail::ConversionPatternRewriterImpl(*this)) { 1499c6532830SMatthias Springer setListener(this); 1500c6532830SMatthias Springer } 1501c6532830SMatthias Springer 1502e5639b3fSMehdi Amini ConversionPatternRewriter::~ConversionPatternRewriter() = default; 1503b6eb26fdSRiver Riddle 1504c8fb6ee3SRiver Riddle void ConversionPatternRewriter::replaceOpWithIf( 1505c8fb6ee3SRiver Riddle Operation *op, ValueRange newValues, bool *allUsesReplaced, 1506c8fb6ee3SRiver Riddle llvm::unique_function<bool(OpOperand &) const> functor) { 1507c8fb6ee3SRiver Riddle // TODO: To support this we will need to rework a bit of how replacements are 1508c8fb6ee3SRiver Riddle // tracked, given that this isn't guranteed to replace all of the uses of an 1509c8fb6ee3SRiver Riddle // operation. The main change is that now an operation can be replaced 1510c8fb6ee3SRiver Riddle // multiple times, in parts. The current "set" based tracking is mainly useful 1511c8fb6ee3SRiver Riddle // for tracking if a replaced operation should be ignored, i.e. if all of the 1512c8fb6ee3SRiver Riddle // uses will be replaced. 1513c8fb6ee3SRiver Riddle llvm_unreachable( 1514c8fb6ee3SRiver Riddle "replaceOpWithIf is currently not supported by DialectConversion"); 1515c8fb6ee3SRiver Riddle } 1516c8fb6ee3SRiver Riddle 1517b6eb26fdSRiver Riddle void ConversionPatternRewriter::replaceOp(Operation *op, ValueRange newValues) { 1518b6eb26fdSRiver Riddle LLVM_DEBUG({ 1519b6eb26fdSRiver Riddle impl->logger.startLine() 1520b6eb26fdSRiver Riddle << "** Replace : '" << op->getName() << "'(" << op << ")\n"; 1521b6eb26fdSRiver Riddle }); 1522b6eb26fdSRiver Riddle impl->notifyOpReplaced(op, newValues); 1523b6eb26fdSRiver Riddle } 1524b6eb26fdSRiver Riddle 1525b6eb26fdSRiver Riddle void ConversionPatternRewriter::eraseOp(Operation *op) { 1526b6eb26fdSRiver Riddle LLVM_DEBUG({ 1527b6eb26fdSRiver Riddle impl->logger.startLine() 1528b6eb26fdSRiver Riddle << "** Erase : '" << op->getName() << "'(" << op << ")\n"; 1529b6eb26fdSRiver Riddle }); 1530b6eb26fdSRiver Riddle SmallVector<Value, 1> nullRepls(op->getNumResults(), nullptr); 1531b6eb26fdSRiver Riddle impl->notifyOpReplaced(op, nullRepls); 1532b6eb26fdSRiver Riddle } 1533b6eb26fdSRiver Riddle 1534b6eb26fdSRiver Riddle void ConversionPatternRewriter::eraseBlock(Block *block) { 1535b6eb26fdSRiver Riddle impl->notifyBlockIsBeingErased(block); 1536b6eb26fdSRiver Riddle 1537b6eb26fdSRiver Riddle // Mark all ops for erasure. 1538b6eb26fdSRiver Riddle for (Operation &op : *block) 1539b6eb26fdSRiver Riddle eraseOp(&op); 1540b6eb26fdSRiver Riddle 1541b6eb26fdSRiver Riddle // Unlink the block from its parent region. The block is kept in the block 1542b6eb26fdSRiver Riddle // action and will be actually destroyed when rewrites are applied. This 1543b6eb26fdSRiver Riddle // allows us to keep the operations in the block live and undo the removal by 1544b6eb26fdSRiver Riddle // re-inserting the block. 1545b6eb26fdSRiver Riddle block->getParent()->getBlocks().remove(block); 1546b6eb26fdSRiver Riddle } 1547b6eb26fdSRiver Riddle 1548b6eb26fdSRiver Riddle Block *ConversionPatternRewriter::applySignatureConversion( 1549223dcdcfSSean Silva Region *region, TypeConverter::SignatureConversion &conversion, 1550223dcdcfSSean Silva TypeConverter *converter) { 1551223dcdcfSSean Silva return impl->applySignatureConversion(region, conversion, converter); 1552b6eb26fdSRiver Riddle } 1553b6eb26fdSRiver Riddle 1554b6eb26fdSRiver Riddle FailureOr<Block *> ConversionPatternRewriter::convertRegionTypes( 1555b6eb26fdSRiver Riddle Region *region, TypeConverter &converter, 1556b6eb26fdSRiver Riddle TypeConverter::SignatureConversion *entryConversion) { 1557b6eb26fdSRiver Riddle return impl->convertRegionTypes(region, converter, entryConversion); 1558b6eb26fdSRiver Riddle } 1559b6eb26fdSRiver Riddle 15603b021fbdSKareemErgawy-TomTom LogicalResult ConversionPatternRewriter::convertNonEntryRegionTypes( 1561aa6eb2afSKareemErgawy-TomTom Region *region, TypeConverter &converter, 1562aa6eb2afSKareemErgawy-TomTom ArrayRef<TypeConverter::SignatureConversion> blockConversions) { 1563aa6eb2afSKareemErgawy-TomTom return impl->convertNonEntryRegionTypes(region, converter, blockConversions); 15643b021fbdSKareemErgawy-TomTom } 15653b021fbdSKareemErgawy-TomTom 1566b6eb26fdSRiver Riddle void ConversionPatternRewriter::replaceUsesOfBlockArgument(BlockArgument from, 1567b6eb26fdSRiver Riddle Value to) { 1568b6eb26fdSRiver Riddle LLVM_DEBUG({ 1569b6eb26fdSRiver Riddle Operation *parentOp = from.getOwner()->getParentOp(); 1570b6eb26fdSRiver Riddle impl->logger.startLine() << "** Replace Argument : '" << from 1571b6eb26fdSRiver Riddle << "'(in region of '" << parentOp->getName() 1572b6eb26fdSRiver Riddle << "'(" << from.getOwner()->getParentOp() << ")\n"; 1573b6eb26fdSRiver Riddle }); 1574b6eb26fdSRiver Riddle impl->argReplacements.push_back(from); 1575b6eb26fdSRiver Riddle impl->mapping.map(impl->mapping.lookupOrDefault(from), to); 1576b6eb26fdSRiver Riddle } 1577b6eb26fdSRiver Riddle 1578b6eb26fdSRiver Riddle Value ConversionPatternRewriter::getRemappedValue(Value key) { 1579015192c6SRiver Riddle SmallVector<Value> remappedValues; 15801a36588eSKazu Hirata if (failed(impl->remapValues("value", /*inputLoc=*/std::nullopt, *this, key, 1581015192c6SRiver Riddle remappedValues))) 1582015192c6SRiver Riddle return nullptr; 1583015192c6SRiver Riddle return remappedValues.front(); 1584015192c6SRiver Riddle } 1585015192c6SRiver Riddle 1586015192c6SRiver Riddle LogicalResult 1587015192c6SRiver Riddle ConversionPatternRewriter::getRemappedValues(ValueRange keys, 1588015192c6SRiver Riddle SmallVectorImpl<Value> &results) { 1589015192c6SRiver Riddle if (keys.empty()) 1590015192c6SRiver Riddle return success(); 15911a36588eSKazu Hirata return impl->remapValues("value", /*inputLoc=*/std::nullopt, *this, keys, 1592015192c6SRiver Riddle results); 1593b6eb26fdSRiver Riddle } 1594b6eb26fdSRiver Riddle 1595b6eb26fdSRiver Riddle void ConversionPatternRewriter::notifyBlockCreated(Block *block) { 1596b6eb26fdSRiver Riddle impl->notifyCreatedBlock(block); 1597b6eb26fdSRiver Riddle } 1598b6eb26fdSRiver Riddle 1599b6eb26fdSRiver Riddle Block *ConversionPatternRewriter::splitBlock(Block *block, 1600b6eb26fdSRiver Riddle Block::iterator before) { 1601b6eb26fdSRiver Riddle auto *continuation = PatternRewriter::splitBlock(block, before); 1602b6eb26fdSRiver Riddle impl->notifySplitBlock(block, continuation); 1603b6eb26fdSRiver Riddle return continuation; 1604b6eb26fdSRiver Riddle } 1605b6eb26fdSRiver Riddle 1606b6eb26fdSRiver Riddle void ConversionPatternRewriter::mergeBlocks(Block *source, Block *dest, 1607b6eb26fdSRiver Riddle ValueRange argValues) { 1608b6eb26fdSRiver Riddle impl->notifyBlocksBeingMerged(dest, source); 1609b6eb26fdSRiver Riddle assert(llvm::all_of(source->getPredecessors(), 1610b6eb26fdSRiver Riddle [dest](Block *succ) { return succ == dest; }) && 1611b6eb26fdSRiver Riddle "expected 'source' to have no predecessors or only 'dest'"); 1612b6eb26fdSRiver Riddle assert(argValues.size() == source->getNumArguments() && 1613b6eb26fdSRiver Riddle "incorrect # of argument replacement values"); 1614b6eb26fdSRiver Riddle for (auto it : llvm::zip(source->getArguments(), argValues)) 1615b6eb26fdSRiver Riddle replaceUsesOfBlockArgument(std::get<0>(it), std::get<1>(it)); 1616b6eb26fdSRiver Riddle dest->getOperations().splice(dest->end(), source->getOperations()); 1617b6eb26fdSRiver Riddle eraseBlock(source); 1618b6eb26fdSRiver Riddle } 1619b6eb26fdSRiver Riddle 1620b6eb26fdSRiver Riddle void ConversionPatternRewriter::inlineRegionBefore(Region ®ion, 1621b6eb26fdSRiver Riddle Region &parent, 1622b6eb26fdSRiver Riddle Region::iterator before) { 1623b6eb26fdSRiver Riddle impl->notifyRegionIsBeingInlinedBefore(region, parent, before); 1624b6eb26fdSRiver Riddle PatternRewriter::inlineRegionBefore(region, parent, before); 1625b6eb26fdSRiver Riddle } 1626b6eb26fdSRiver Riddle 16274d67b278SJeff Niu void ConversionPatternRewriter::cloneRegionBefore(Region ®ion, 16284d67b278SJeff Niu Region &parent, 16294d67b278SJeff Niu Region::iterator before, 16304d67b278SJeff Niu IRMapping &mapping) { 1631b6eb26fdSRiver Riddle if (region.empty()) 1632b6eb26fdSRiver Riddle return; 1633b6eb26fdSRiver Riddle PatternRewriter::cloneRegionBefore(region, parent, before, mapping); 1634b6eb26fdSRiver Riddle 1635b6eb26fdSRiver Riddle // Collect the range of the cloned blocks. 1636b6eb26fdSRiver Riddle auto clonedBeginIt = mapping.lookup(®ion.front())->getIterator(); 1637b6eb26fdSRiver Riddle auto clonedBlocks = llvm::make_range(clonedBeginIt, before); 1638b6eb26fdSRiver Riddle impl->notifyRegionWasClonedBefore(clonedBlocks, region.getLoc()); 1639b6eb26fdSRiver Riddle } 1640b6eb26fdSRiver Riddle 1641b6eb26fdSRiver Riddle void ConversionPatternRewriter::notifyOperationInserted(Operation *op) { 1642b6eb26fdSRiver Riddle LLVM_DEBUG({ 1643b6eb26fdSRiver Riddle impl->logger.startLine() 1644b6eb26fdSRiver Riddle << "** Insert : '" << op->getName() << "'(" << op << ")\n"; 1645b6eb26fdSRiver Riddle }); 1646b6eb26fdSRiver Riddle impl->createdOps.push_back(op); 1647b6eb26fdSRiver Riddle } 1648b6eb26fdSRiver Riddle 1649b6eb26fdSRiver Riddle void ConversionPatternRewriter::startRootUpdate(Operation *op) { 1650b6eb26fdSRiver Riddle #ifndef NDEBUG 1651b6eb26fdSRiver Riddle impl->pendingRootUpdates.insert(op); 1652b6eb26fdSRiver Riddle #endif 1653b6eb26fdSRiver Riddle impl->rootUpdates.emplace_back(op); 1654b6eb26fdSRiver Riddle } 1655b6eb26fdSRiver Riddle 1656b6eb26fdSRiver Riddle void ConversionPatternRewriter::finalizeRootUpdate(Operation *op) { 1657*bafc4dfcSMatthias Springer PatternRewriter::finalizeRootUpdate(op); 1658b6eb26fdSRiver Riddle // There is nothing to do here, we only need to track the operation at the 1659b6eb26fdSRiver Riddle // start of the update. 1660b6eb26fdSRiver Riddle #ifndef NDEBUG 1661b6eb26fdSRiver Riddle assert(impl->pendingRootUpdates.erase(op) && 1662b6eb26fdSRiver Riddle "operation did not have a pending in-place update"); 1663b6eb26fdSRiver Riddle #endif 1664b6eb26fdSRiver Riddle } 1665b6eb26fdSRiver Riddle 1666b6eb26fdSRiver Riddle void ConversionPatternRewriter::cancelRootUpdate(Operation *op) { 1667b6eb26fdSRiver Riddle #ifndef NDEBUG 1668b6eb26fdSRiver Riddle assert(impl->pendingRootUpdates.erase(op) && 1669b6eb26fdSRiver Riddle "operation did not have a pending in-place update"); 1670b6eb26fdSRiver Riddle #endif 1671b6eb26fdSRiver Riddle // Erase the last update for this operation. 1672b6eb26fdSRiver Riddle auto stateHasOp = [op](const auto &it) { return it.getOperation() == op; }; 1673b6eb26fdSRiver Riddle auto &rootUpdates = impl->rootUpdates; 1674b6eb26fdSRiver Riddle auto it = llvm::find_if(llvm::reverse(rootUpdates), stateHasOp); 16750c29f45aSUday Bondhugula assert(it != rootUpdates.rend() && "no root update started on op"); 1676b2b63d1bSYi Zhang (*it).resetOperation(); 16770c29f45aSUday Bondhugula int updateIdx = std::prev(rootUpdates.rend()) - it; 16780c29f45aSUday Bondhugula rootUpdates.erase(rootUpdates.begin() + updateIdx); 1679b6eb26fdSRiver Riddle } 1680b6eb26fdSRiver Riddle 1681b6eb26fdSRiver Riddle LogicalResult ConversionPatternRewriter::notifyMatchFailure( 1682ea64828aSRiver Riddle Location loc, function_ref<void(Diagnostic &)> reasonCallback) { 1683ea64828aSRiver Riddle return impl->notifyMatchFailure(loc, reasonCallback); 1684b6eb26fdSRiver Riddle } 1685b6eb26fdSRiver Riddle 1686b6eb26fdSRiver Riddle detail::ConversionPatternRewriterImpl &ConversionPatternRewriter::getImpl() { 1687b6eb26fdSRiver Riddle return *impl; 1688b6eb26fdSRiver Riddle } 1689b6eb26fdSRiver Riddle 1690b6eb26fdSRiver Riddle //===----------------------------------------------------------------------===// 1691b6eb26fdSRiver Riddle // ConversionPattern 1692b6eb26fdSRiver Riddle //===----------------------------------------------------------------------===// 1693b6eb26fdSRiver Riddle 1694b6eb26fdSRiver Riddle LogicalResult 1695b6eb26fdSRiver Riddle ConversionPattern::matchAndRewrite(Operation *op, 1696b6eb26fdSRiver Riddle PatternRewriter &rewriter) const { 1697b6eb26fdSRiver Riddle auto &dialectRewriter = static_cast<ConversionPatternRewriter &>(rewriter); 1698b6eb26fdSRiver Riddle auto &rewriterImpl = dialectRewriter.getImpl(); 1699b6eb26fdSRiver Riddle 170001b55f16SRiver Riddle // Track the current conversion pattern type converter in the rewriter. 1701abf0c6c0SJan Svoboda llvm::SaveAndRestore currentConverterGuard(rewriterImpl.currentTypeConverter, 1702abf0c6c0SJan Svoboda getTypeConverter()); 1703b6eb26fdSRiver Riddle 1704b6eb26fdSRiver Riddle // Remap the operands of the operation. 1705b6eb26fdSRiver Riddle SmallVector<Value, 4> operands; 1706015192c6SRiver Riddle if (failed(rewriterImpl.remapValues("operand", op->getLoc(), rewriter, 1707015192c6SRiver Riddle op->getOperands(), operands))) { 1708b6eb26fdSRiver Riddle return failure(); 1709b6eb26fdSRiver Riddle } 1710b6eb26fdSRiver Riddle return matchAndRewrite(op, operands, dialectRewriter); 1711b6eb26fdSRiver Riddle } 1712b6eb26fdSRiver Riddle 1713b6eb26fdSRiver Riddle //===----------------------------------------------------------------------===// 1714b6eb26fdSRiver Riddle // OperationLegalizer 1715b6eb26fdSRiver Riddle //===----------------------------------------------------------------------===// 1716b6eb26fdSRiver Riddle 1717b6eb26fdSRiver Riddle namespace { 1718b6eb26fdSRiver Riddle /// A set of rewrite patterns that can be used to legalize a given operation. 1719b6eb26fdSRiver Riddle using LegalizationPatterns = SmallVector<const Pattern *, 1>; 1720b6eb26fdSRiver Riddle 1721b6eb26fdSRiver Riddle /// This class defines a recursive operation legalizer. 1722b6eb26fdSRiver Riddle class OperationLegalizer { 1723b6eb26fdSRiver Riddle public: 1724b6eb26fdSRiver Riddle using LegalizationAction = ConversionTarget::LegalizationAction; 1725b6eb26fdSRiver Riddle 1726b6eb26fdSRiver Riddle OperationLegalizer(ConversionTarget &targetInfo, 172779d7f618SChris Lattner const FrozenRewritePatternSet &patterns); 1728b6eb26fdSRiver Riddle 1729b6eb26fdSRiver Riddle /// Returns true if the given operation is known to be illegal on the target. 1730b6eb26fdSRiver Riddle bool isIllegal(Operation *op) const; 1731b6eb26fdSRiver Riddle 1732b6eb26fdSRiver Riddle /// Attempt to legalize the given operation. Returns success if the operation 1733b6eb26fdSRiver Riddle /// was legalized, failure otherwise. 1734b6eb26fdSRiver Riddle LogicalResult legalize(Operation *op, ConversionPatternRewriter &rewriter); 1735b6eb26fdSRiver Riddle 1736b6eb26fdSRiver Riddle /// Returns the conversion target in use by the legalizer. 1737b6eb26fdSRiver Riddle ConversionTarget &getTarget() { return target; } 1738b6eb26fdSRiver Riddle 1739b6eb26fdSRiver Riddle private: 1740b6eb26fdSRiver Riddle /// Attempt to legalize the given operation by folding it. 1741b6eb26fdSRiver Riddle LogicalResult legalizeWithFold(Operation *op, 1742b6eb26fdSRiver Riddle ConversionPatternRewriter &rewriter); 1743b6eb26fdSRiver Riddle 1744b6eb26fdSRiver Riddle /// Attempt to legalize the given operation by applying a pattern. Returns 1745b6eb26fdSRiver Riddle /// success if the operation was legalized, failure otherwise. 1746b6eb26fdSRiver Riddle LogicalResult legalizeWithPattern(Operation *op, 1747b6eb26fdSRiver Riddle ConversionPatternRewriter &rewriter); 1748b6eb26fdSRiver Riddle 1749b6eb26fdSRiver Riddle /// Return true if the given pattern may be applied to the given operation, 1750b6eb26fdSRiver Riddle /// false otherwise. 1751b6eb26fdSRiver Riddle bool canApplyPattern(Operation *op, const Pattern &pattern, 1752b6eb26fdSRiver Riddle ConversionPatternRewriter &rewriter); 1753b6eb26fdSRiver Riddle 1754b6eb26fdSRiver Riddle /// Legalize the resultant IR after successfully applying the given pattern. 1755b6eb26fdSRiver Riddle LogicalResult legalizePatternResult(Operation *op, const Pattern &pattern, 1756b6eb26fdSRiver Riddle ConversionPatternRewriter &rewriter, 1757b6eb26fdSRiver Riddle RewriterState &curState); 1758b6eb26fdSRiver Riddle 1759b6eb26fdSRiver Riddle /// Legalizes the actions registered during the execution of a pattern. 1760b6eb26fdSRiver Riddle LogicalResult legalizePatternBlockActions(Operation *op, 1761b6eb26fdSRiver Riddle ConversionPatternRewriter &rewriter, 1762b6eb26fdSRiver Riddle ConversionPatternRewriterImpl &impl, 1763b6eb26fdSRiver Riddle RewriterState &state, 1764b6eb26fdSRiver Riddle RewriterState &newState); 1765b6eb26fdSRiver Riddle LogicalResult legalizePatternCreatedOperations( 1766b6eb26fdSRiver Riddle ConversionPatternRewriter &rewriter, ConversionPatternRewriterImpl &impl, 1767b6eb26fdSRiver Riddle RewriterState &state, RewriterState &newState); 1768b6eb26fdSRiver Riddle LogicalResult legalizePatternRootUpdates(ConversionPatternRewriter &rewriter, 1769b6eb26fdSRiver Riddle ConversionPatternRewriterImpl &impl, 1770b6eb26fdSRiver Riddle RewriterState &state, 1771b6eb26fdSRiver Riddle RewriterState &newState); 1772b6eb26fdSRiver Riddle 1773b6eb26fdSRiver Riddle //===--------------------------------------------------------------------===// 1774b6eb26fdSRiver Riddle // Cost Model 1775b6eb26fdSRiver Riddle //===--------------------------------------------------------------------===// 1776b6eb26fdSRiver Riddle 1777b6eb26fdSRiver Riddle /// Build an optimistic legalization graph given the provided patterns. This 1778b6eb26fdSRiver Riddle /// function populates 'anyOpLegalizerPatterns' and 'legalizerPatterns' with 1779b6eb26fdSRiver Riddle /// patterns for operations that are not directly legal, but may be 1780b6eb26fdSRiver Riddle /// transitively legal for the current target given the provided patterns. 1781b6eb26fdSRiver Riddle void buildLegalizationGraph( 1782b6eb26fdSRiver Riddle LegalizationPatterns &anyOpLegalizerPatterns, 1783b6eb26fdSRiver Riddle DenseMap<OperationName, LegalizationPatterns> &legalizerPatterns); 1784b6eb26fdSRiver Riddle 1785b6eb26fdSRiver Riddle /// Compute the benefit of each node within the computed legalization graph. 1786b6eb26fdSRiver Riddle /// This orders the patterns within 'legalizerPatterns' based upon two 1787b6eb26fdSRiver Riddle /// criteria: 1788b6eb26fdSRiver Riddle /// 1) Prefer patterns that have the lowest legalization depth, i.e. 1789b6eb26fdSRiver Riddle /// represent the more direct mapping to the target. 1790b6eb26fdSRiver Riddle /// 2) When comparing patterns with the same legalization depth, prefer the 1791b6eb26fdSRiver Riddle /// pattern with the highest PatternBenefit. This allows for users to 1792b6eb26fdSRiver Riddle /// prefer specific legalizations over others. 1793b6eb26fdSRiver Riddle void computeLegalizationGraphBenefit( 1794b6eb26fdSRiver Riddle LegalizationPatterns &anyOpLegalizerPatterns, 1795b6eb26fdSRiver Riddle DenseMap<OperationName, LegalizationPatterns> &legalizerPatterns); 1796b6eb26fdSRiver Riddle 1797b6eb26fdSRiver Riddle /// Compute the legalization depth when legalizing an operation of the given 1798b6eb26fdSRiver Riddle /// type. 1799b6eb26fdSRiver Riddle unsigned computeOpLegalizationDepth( 1800b6eb26fdSRiver Riddle OperationName op, DenseMap<OperationName, unsigned> &minOpPatternDepth, 1801b6eb26fdSRiver Riddle DenseMap<OperationName, LegalizationPatterns> &legalizerPatterns); 1802b6eb26fdSRiver Riddle 1803b6eb26fdSRiver Riddle /// Apply the conversion cost model to the given set of patterns, and return 1804b6eb26fdSRiver Riddle /// the smallest legalization depth of any of the patterns. See 1805b6eb26fdSRiver Riddle /// `computeLegalizationGraphBenefit` for the breakdown of the cost model. 1806b6eb26fdSRiver Riddle unsigned applyCostModelToPatterns( 1807b6eb26fdSRiver Riddle LegalizationPatterns &patterns, 1808b6eb26fdSRiver Riddle DenseMap<OperationName, unsigned> &minOpPatternDepth, 1809b6eb26fdSRiver Riddle DenseMap<OperationName, LegalizationPatterns> &legalizerPatterns); 1810b6eb26fdSRiver Riddle 1811b6eb26fdSRiver Riddle /// The current set of patterns that have been applied. 1812b6eb26fdSRiver Riddle SmallPtrSet<const Pattern *, 8> appliedPatterns; 1813b6eb26fdSRiver Riddle 1814b6eb26fdSRiver Riddle /// The legalization information provided by the target. 1815b6eb26fdSRiver Riddle ConversionTarget ⌖ 1816b6eb26fdSRiver Riddle 1817b6eb26fdSRiver Riddle /// The pattern applicator to use for conversions. 1818b6eb26fdSRiver Riddle PatternApplicator applicator; 1819b6eb26fdSRiver Riddle }; 1820b6eb26fdSRiver Riddle } // namespace 1821b6eb26fdSRiver Riddle 1822b6eb26fdSRiver Riddle OperationLegalizer::OperationLegalizer(ConversionTarget &targetInfo, 182379d7f618SChris Lattner const FrozenRewritePatternSet &patterns) 1824b6eb26fdSRiver Riddle : target(targetInfo), applicator(patterns) { 1825b6eb26fdSRiver Riddle // The set of patterns that can be applied to illegal operations to transform 1826b6eb26fdSRiver Riddle // them into legal ones. 1827b6eb26fdSRiver Riddle DenseMap<OperationName, LegalizationPatterns> legalizerPatterns; 1828b6eb26fdSRiver Riddle LegalizationPatterns anyOpLegalizerPatterns; 1829b6eb26fdSRiver Riddle 1830b6eb26fdSRiver Riddle buildLegalizationGraph(anyOpLegalizerPatterns, legalizerPatterns); 1831b6eb26fdSRiver Riddle computeLegalizationGraphBenefit(anyOpLegalizerPatterns, legalizerPatterns); 1832b6eb26fdSRiver Riddle } 1833b6eb26fdSRiver Riddle 1834b6eb26fdSRiver Riddle bool OperationLegalizer::isIllegal(Operation *op) const { 18352a3878eaSButygin return target.isIllegal(op); 1836b6eb26fdSRiver Riddle } 1837b6eb26fdSRiver Riddle 1838b6eb26fdSRiver Riddle LogicalResult 1839b6eb26fdSRiver Riddle OperationLegalizer::legalize(Operation *op, 1840b6eb26fdSRiver Riddle ConversionPatternRewriter &rewriter) { 1841b6eb26fdSRiver Riddle #ifndef NDEBUG 1842b6eb26fdSRiver Riddle const char *logLineComment = 1843b6eb26fdSRiver Riddle "//===-------------------------------------------===//\n"; 1844b6eb26fdSRiver Riddle 184501b55f16SRiver Riddle auto &logger = rewriter.getImpl().logger; 1846b6eb26fdSRiver Riddle #endif 1847b6eb26fdSRiver Riddle LLVM_DEBUG({ 184801b55f16SRiver Riddle logger.getOStream() << "\n"; 184901b55f16SRiver Riddle logger.startLine() << logLineComment; 185001b55f16SRiver Riddle logger.startLine() << "Legalizing operation : '" << op->getName() << "'(" 185101b55f16SRiver Riddle << op << ") {\n"; 185201b55f16SRiver Riddle logger.indent(); 1853b6eb26fdSRiver Riddle 1854b6eb26fdSRiver Riddle // If the operation has no regions, just print it here. 1855b6eb26fdSRiver Riddle if (op->getNumRegions() == 0) { 185601b55f16SRiver Riddle op->print(logger.startLine(), OpPrintingFlags().printGenericOpForm()); 185701b55f16SRiver Riddle logger.getOStream() << "\n\n"; 1858b6eb26fdSRiver Riddle } 1859b6eb26fdSRiver Riddle }); 1860b6eb26fdSRiver Riddle 1861b6eb26fdSRiver Riddle // Check if this operation is legal on the target. 1862b6eb26fdSRiver Riddle if (auto legalityInfo = target.isLegal(op)) { 1863b6eb26fdSRiver Riddle LLVM_DEBUG({ 1864b6eb26fdSRiver Riddle logSuccess( 186501b55f16SRiver Riddle logger, "operation marked legal by the target{0}", 1866b6eb26fdSRiver Riddle legalityInfo->isRecursivelyLegal 1867b6eb26fdSRiver Riddle ? "; NOTE: operation is recursively legal; skipping internals" 1868b6eb26fdSRiver Riddle : ""); 186901b55f16SRiver Riddle logger.startLine() << logLineComment; 1870b6eb26fdSRiver Riddle }); 1871b6eb26fdSRiver Riddle 1872b6eb26fdSRiver Riddle // If this operation is recursively legal, mark its children as ignored so 1873b6eb26fdSRiver Riddle // that we don't consider them for legalization. 1874b6eb26fdSRiver Riddle if (legalityInfo->isRecursivelyLegal) 1875b6eb26fdSRiver Riddle rewriter.getImpl().markNestedOpsIgnored(op); 1876b6eb26fdSRiver Riddle return success(); 1877b6eb26fdSRiver Riddle } 1878b6eb26fdSRiver Riddle 1879b6eb26fdSRiver Riddle // Check to see if the operation is ignored and doesn't need to be converted. 1880b6eb26fdSRiver Riddle if (rewriter.getImpl().isOpIgnored(op)) { 1881b6eb26fdSRiver Riddle LLVM_DEBUG({ 188201b55f16SRiver Riddle logSuccess(logger, "operation marked 'ignored' during conversion"); 188301b55f16SRiver Riddle logger.startLine() << logLineComment; 1884b6eb26fdSRiver Riddle }); 1885b6eb26fdSRiver Riddle return success(); 1886b6eb26fdSRiver Riddle } 1887b6eb26fdSRiver Riddle 1888b6eb26fdSRiver Riddle // If the operation isn't legal, try to fold it in-place. 1889b6eb26fdSRiver Riddle // TODO: Should we always try to do this, even if the op is 1890b6eb26fdSRiver Riddle // already legal? 1891b6eb26fdSRiver Riddle if (succeeded(legalizeWithFold(op, rewriter))) { 1892b6eb26fdSRiver Riddle LLVM_DEBUG({ 189301b55f16SRiver Riddle logSuccess(logger, "operation was folded"); 189401b55f16SRiver Riddle logger.startLine() << logLineComment; 1895b6eb26fdSRiver Riddle }); 1896b6eb26fdSRiver Riddle return success(); 1897b6eb26fdSRiver Riddle } 1898b6eb26fdSRiver Riddle 1899b6eb26fdSRiver Riddle // Otherwise, we need to apply a legalization pattern to this operation. 1900b6eb26fdSRiver Riddle if (succeeded(legalizeWithPattern(op, rewriter))) { 1901b6eb26fdSRiver Riddle LLVM_DEBUG({ 190201b55f16SRiver Riddle logSuccess(logger, ""); 190301b55f16SRiver Riddle logger.startLine() << logLineComment; 1904b6eb26fdSRiver Riddle }); 1905b6eb26fdSRiver Riddle return success(); 1906b6eb26fdSRiver Riddle } 1907b6eb26fdSRiver Riddle 1908b6eb26fdSRiver Riddle LLVM_DEBUG({ 190901b55f16SRiver Riddle logFailure(logger, "no matched legalization pattern"); 191001b55f16SRiver Riddle logger.startLine() << logLineComment; 1911b6eb26fdSRiver Riddle }); 1912b6eb26fdSRiver Riddle return failure(); 1913b6eb26fdSRiver Riddle } 1914b6eb26fdSRiver Riddle 1915b6eb26fdSRiver Riddle LogicalResult 1916b6eb26fdSRiver Riddle OperationLegalizer::legalizeWithFold(Operation *op, 1917b6eb26fdSRiver Riddle ConversionPatternRewriter &rewriter) { 1918b6eb26fdSRiver Riddle auto &rewriterImpl = rewriter.getImpl(); 1919b6eb26fdSRiver Riddle RewriterState curState = rewriterImpl.getCurrentState(); 1920b6eb26fdSRiver Riddle 1921b6eb26fdSRiver Riddle LLVM_DEBUG({ 1922b6eb26fdSRiver Riddle rewriterImpl.logger.startLine() << "* Fold {\n"; 1923b6eb26fdSRiver Riddle rewriterImpl.logger.indent(); 1924b6eb26fdSRiver Riddle }); 1925b6eb26fdSRiver Riddle 1926b6eb26fdSRiver Riddle // Try to fold the operation. 1927b6eb26fdSRiver Riddle SmallVector<Value, 2> replacementValues; 1928b6eb26fdSRiver Riddle rewriter.setInsertionPoint(op); 1929b6eb26fdSRiver Riddle if (failed(rewriter.tryFold(op, replacementValues))) { 1930b6eb26fdSRiver Riddle LLVM_DEBUG(logFailure(rewriterImpl.logger, "unable to fold")); 1931b6eb26fdSRiver Riddle return failure(); 1932b6eb26fdSRiver Riddle } 1933b6eb26fdSRiver Riddle 1934b6eb26fdSRiver Riddle // Insert a replacement for 'op' with the folded replacement values. 1935b6eb26fdSRiver Riddle rewriter.replaceOp(op, replacementValues); 1936b6eb26fdSRiver Riddle 1937b6eb26fdSRiver Riddle // Recursively legalize any new constant operations. 1938b6eb26fdSRiver Riddle for (unsigned i = curState.numCreatedOps, e = rewriterImpl.createdOps.size(); 1939b6eb26fdSRiver Riddle i != e; ++i) { 1940b6eb26fdSRiver Riddle Operation *cstOp = rewriterImpl.createdOps[i]; 1941b6eb26fdSRiver Riddle if (failed(legalize(cstOp, rewriter))) { 1942b6eb26fdSRiver Riddle LLVM_DEBUG(logFailure(rewriterImpl.logger, 1943e49c0e48SUday Bondhugula "failed to legalize generated constant '{0}'", 1944b6eb26fdSRiver Riddle cstOp->getName())); 1945b6eb26fdSRiver Riddle rewriterImpl.resetState(curState); 1946b6eb26fdSRiver Riddle return failure(); 1947b6eb26fdSRiver Riddle } 1948b6eb26fdSRiver Riddle } 1949b6eb26fdSRiver Riddle 1950b6eb26fdSRiver Riddle LLVM_DEBUG(logSuccess(rewriterImpl.logger, "")); 1951b6eb26fdSRiver Riddle return success(); 1952b6eb26fdSRiver Riddle } 1953b6eb26fdSRiver Riddle 1954b6eb26fdSRiver Riddle LogicalResult 1955b6eb26fdSRiver Riddle OperationLegalizer::legalizeWithPattern(Operation *op, 1956b6eb26fdSRiver Riddle ConversionPatternRewriter &rewriter) { 1957b6eb26fdSRiver Riddle auto &rewriterImpl = rewriter.getImpl(); 1958b6eb26fdSRiver Riddle 1959b6eb26fdSRiver Riddle // Functor that returns if the given pattern may be applied. 1960b6eb26fdSRiver Riddle auto canApply = [&](const Pattern &pattern) { 1961b6eb26fdSRiver Riddle return canApplyPattern(op, pattern, rewriter); 1962b6eb26fdSRiver Riddle }; 1963b6eb26fdSRiver Riddle 1964b6eb26fdSRiver Riddle // Functor that cleans up the rewriter state after a pattern failed to match. 1965b6eb26fdSRiver Riddle RewriterState curState = rewriterImpl.getCurrentState(); 1966b6eb26fdSRiver Riddle auto onFailure = [&](const Pattern &pattern) { 1967b8c6b152SChia-hung Duan LLVM_DEBUG({ 1968b8c6b152SChia-hung Duan logFailure(rewriterImpl.logger, "pattern failed to match"); 1969b8c6b152SChia-hung Duan if (rewriterImpl.notifyCallback) { 1970b8c6b152SChia-hung Duan Diagnostic diag(op->getLoc(), DiagnosticSeverity::Remark); 1971b8c6b152SChia-hung Duan diag << "Failed to apply pattern \"" << pattern.getDebugName() 1972b8c6b152SChia-hung Duan << "\" on op:\n" 1973b8c6b152SChia-hung Duan << *op; 1974b8c6b152SChia-hung Duan rewriterImpl.notifyCallback(diag); 1975b8c6b152SChia-hung Duan } 1976b8c6b152SChia-hung Duan }); 1977b6eb26fdSRiver Riddle rewriterImpl.resetState(curState); 1978b6eb26fdSRiver Riddle appliedPatterns.erase(&pattern); 1979b6eb26fdSRiver Riddle }; 1980b6eb26fdSRiver Riddle 1981b6eb26fdSRiver Riddle // Functor that performs additional legalization when a pattern is 1982b6eb26fdSRiver Riddle // successfully applied. 1983b6eb26fdSRiver Riddle auto onSuccess = [&](const Pattern &pattern) { 1984b6eb26fdSRiver Riddle auto result = legalizePatternResult(op, pattern, rewriter, curState); 1985b6eb26fdSRiver Riddle appliedPatterns.erase(&pattern); 1986b6eb26fdSRiver Riddle if (failed(result)) 1987b6eb26fdSRiver Riddle rewriterImpl.resetState(curState); 1988b6eb26fdSRiver Riddle return result; 1989b6eb26fdSRiver Riddle }; 1990b6eb26fdSRiver Riddle 1991b6eb26fdSRiver Riddle // Try to match and rewrite a pattern on this operation. 1992b6eb26fdSRiver Riddle return applicator.matchAndRewrite(op, rewriter, canApply, onFailure, 1993b6eb26fdSRiver Riddle onSuccess); 1994b6eb26fdSRiver Riddle } 1995b6eb26fdSRiver Riddle 1996b6eb26fdSRiver Riddle bool OperationLegalizer::canApplyPattern(Operation *op, const Pattern &pattern, 1997b6eb26fdSRiver Riddle ConversionPatternRewriter &rewriter) { 1998b6eb26fdSRiver Riddle LLVM_DEBUG({ 1999b6eb26fdSRiver Riddle auto &os = rewriter.getImpl().logger; 2000b6eb26fdSRiver Riddle os.getOStream() << "\n"; 2001b6eb26fdSRiver Riddle os.startLine() << "* Pattern : '" << op->getName() << " -> ("; 2002015192c6SRiver Riddle llvm::interleaveComma(pattern.getGeneratedOps(), os.getOStream()); 2003b6eb26fdSRiver Riddle os.getOStream() << ")' {\n"; 2004b6eb26fdSRiver Riddle os.indent(); 2005b6eb26fdSRiver Riddle }); 2006b6eb26fdSRiver Riddle 2007b6eb26fdSRiver Riddle // Ensure that we don't cycle by not allowing the same pattern to be 2008b6eb26fdSRiver Riddle // applied twice in the same recursion stack if it is not known to be safe. 2009b6eb26fdSRiver Riddle if (!pattern.hasBoundedRewriteRecursion() && 2010b6eb26fdSRiver Riddle !appliedPatterns.insert(&pattern).second) { 2011b6eb26fdSRiver Riddle LLVM_DEBUG( 2012b6eb26fdSRiver Riddle logFailure(rewriter.getImpl().logger, "pattern was already applied")); 2013b6eb26fdSRiver Riddle return false; 2014b6eb26fdSRiver Riddle } 2015b6eb26fdSRiver Riddle return true; 2016b6eb26fdSRiver Riddle } 2017b6eb26fdSRiver Riddle 2018b6eb26fdSRiver Riddle LogicalResult 2019b6eb26fdSRiver Riddle OperationLegalizer::legalizePatternResult(Operation *op, const Pattern &pattern, 2020b6eb26fdSRiver Riddle ConversionPatternRewriter &rewriter, 2021b6eb26fdSRiver Riddle RewriterState &curState) { 2022b6eb26fdSRiver Riddle auto &impl = rewriter.getImpl(); 2023b6eb26fdSRiver Riddle 2024b6eb26fdSRiver Riddle #ifndef NDEBUG 2025b6eb26fdSRiver Riddle assert(impl.pendingRootUpdates.empty() && "dangling root updates"); 2026b6eb26fdSRiver Riddle #endif 2027b6eb26fdSRiver Riddle 2028b6eb26fdSRiver Riddle // Check that the root was either replaced or updated in place. 2029b6eb26fdSRiver Riddle auto replacedRoot = [&] { 2030b6eb26fdSRiver Riddle return llvm::any_of( 2031b6eb26fdSRiver Riddle llvm::drop_begin(impl.replacements, curState.numReplacements), 2032b6eb26fdSRiver Riddle [op](auto &it) { return it.first == op; }); 2033b6eb26fdSRiver Riddle }; 2034b6eb26fdSRiver Riddle auto updatedRootInPlace = [&] { 2035b6eb26fdSRiver Riddle return llvm::any_of( 2036b6eb26fdSRiver Riddle llvm::drop_begin(impl.rootUpdates, curState.numRootUpdates), 2037b6eb26fdSRiver Riddle [op](auto &state) { return state.getOperation() == op; }); 2038b6eb26fdSRiver Riddle }; 2039b6eb26fdSRiver Riddle (void)replacedRoot; 2040b6eb26fdSRiver Riddle (void)updatedRootInPlace; 2041b6eb26fdSRiver Riddle assert((replacedRoot() || updatedRootInPlace()) && 2042b6eb26fdSRiver Riddle "expected pattern to replace the root operation"); 2043b6eb26fdSRiver Riddle 2044b6eb26fdSRiver Riddle // Legalize each of the actions registered during application. 2045b6eb26fdSRiver Riddle RewriterState newState = impl.getCurrentState(); 2046b6eb26fdSRiver Riddle if (failed(legalizePatternBlockActions(op, rewriter, impl, curState, 2047b6eb26fdSRiver Riddle newState)) || 2048b6eb26fdSRiver Riddle failed(legalizePatternRootUpdates(rewriter, impl, curState, newState)) || 2049b6eb26fdSRiver Riddle failed(legalizePatternCreatedOperations(rewriter, impl, curState, 2050b6eb26fdSRiver Riddle newState))) { 2051b6eb26fdSRiver Riddle return failure(); 2052b6eb26fdSRiver Riddle } 2053b6eb26fdSRiver Riddle 2054b6eb26fdSRiver Riddle LLVM_DEBUG(logSuccess(impl.logger, "pattern applied successfully")); 2055b6eb26fdSRiver Riddle return success(); 2056b6eb26fdSRiver Riddle } 2057b6eb26fdSRiver Riddle 2058b6eb26fdSRiver Riddle LogicalResult OperationLegalizer::legalizePatternBlockActions( 2059b6eb26fdSRiver Riddle Operation *op, ConversionPatternRewriter &rewriter, 2060b6eb26fdSRiver Riddle ConversionPatternRewriterImpl &impl, RewriterState &state, 2061b6eb26fdSRiver Riddle RewriterState &newState) { 2062b6eb26fdSRiver Riddle SmallPtrSet<Operation *, 16> operationsToIgnore; 2063b6eb26fdSRiver Riddle 2064b6eb26fdSRiver Riddle // If the pattern moved or created any blocks, make sure the types of block 2065b6eb26fdSRiver Riddle // arguments get legalized. 2066b6eb26fdSRiver Riddle for (int i = state.numBlockActions, e = newState.numBlockActions; i != e; 2067b6eb26fdSRiver Riddle ++i) { 2068b6eb26fdSRiver Riddle auto &action = impl.blockActions[i]; 2069b6eb26fdSRiver Riddle if (action.kind == BlockActionKind::TypeConversion || 2070b6eb26fdSRiver Riddle action.kind == BlockActionKind::Erase) 2071b6eb26fdSRiver Riddle continue; 2072b6eb26fdSRiver Riddle // Only check blocks outside of the current operation. 2073b6eb26fdSRiver Riddle Operation *parentOp = action.block->getParentOp(); 2074b6eb26fdSRiver Riddle if (!parentOp || parentOp == op || action.block->getNumArguments() == 0) 2075b6eb26fdSRiver Riddle continue; 2076b6eb26fdSRiver Riddle 2077b6eb26fdSRiver Riddle // If the region of the block has a type converter, try to convert the block 2078b6eb26fdSRiver Riddle // directly. 2079b6eb26fdSRiver Riddle if (auto *converter = 2080b6eb26fdSRiver Riddle impl.argConverter.getConverter(action.block->getParent())) { 2081015192c6SRiver Riddle if (failed(impl.convertBlockSignature(action.block, converter))) { 2082b6eb26fdSRiver Riddle LLVM_DEBUG(logFailure(impl.logger, "failed to convert types of moved " 2083b6eb26fdSRiver Riddle "block")); 2084b6eb26fdSRiver Riddle return failure(); 2085b6eb26fdSRiver Riddle } 2086b6eb26fdSRiver Riddle continue; 2087b6eb26fdSRiver Riddle } 2088b6eb26fdSRiver Riddle 2089b6eb26fdSRiver Riddle // Otherwise, check that this operation isn't one generated by this pattern. 2090b6eb26fdSRiver Riddle // This is because we will attempt to legalize the parent operation, and 2091b6eb26fdSRiver Riddle // blocks in regions created by this pattern will already be legalized later 2092b6eb26fdSRiver Riddle // on. If we haven't built the set yet, build it now. 2093b6eb26fdSRiver Riddle if (operationsToIgnore.empty()) { 2094b6eb26fdSRiver Riddle auto createdOps = ArrayRef<Operation *>(impl.createdOps) 2095b6eb26fdSRiver Riddle .drop_front(state.numCreatedOps); 2096b6eb26fdSRiver Riddle operationsToIgnore.insert(createdOps.begin(), createdOps.end()); 2097b6eb26fdSRiver Riddle } 2098b6eb26fdSRiver Riddle 2099b6eb26fdSRiver Riddle // If this operation should be considered for re-legalization, try it. 2100b6eb26fdSRiver Riddle if (operationsToIgnore.insert(parentOp).second && 2101b6eb26fdSRiver Riddle failed(legalize(parentOp, rewriter))) { 2102b6eb26fdSRiver Riddle LLVM_DEBUG(logFailure( 2103b6eb26fdSRiver Riddle impl.logger, "operation '{0}'({1}) became illegal after block action", 2104b6eb26fdSRiver Riddle parentOp->getName(), parentOp)); 2105b6eb26fdSRiver Riddle return failure(); 2106b6eb26fdSRiver Riddle } 2107b6eb26fdSRiver Riddle } 2108b6eb26fdSRiver Riddle return success(); 2109b6eb26fdSRiver Riddle } 211001b55f16SRiver Riddle 2111b6eb26fdSRiver Riddle LogicalResult OperationLegalizer::legalizePatternCreatedOperations( 2112b6eb26fdSRiver Riddle ConversionPatternRewriter &rewriter, ConversionPatternRewriterImpl &impl, 2113b6eb26fdSRiver Riddle RewriterState &state, RewriterState &newState) { 2114b6eb26fdSRiver Riddle for (int i = state.numCreatedOps, e = newState.numCreatedOps; i != e; ++i) { 2115b6eb26fdSRiver Riddle Operation *op = impl.createdOps[i]; 2116b6eb26fdSRiver Riddle if (failed(legalize(op, rewriter))) { 2117b6eb26fdSRiver Riddle LLVM_DEBUG(logFailure(impl.logger, 2118e49c0e48SUday Bondhugula "failed to legalize generated operation '{0}'({1})", 2119b6eb26fdSRiver Riddle op->getName(), op)); 2120b6eb26fdSRiver Riddle return failure(); 2121b6eb26fdSRiver Riddle } 2122b6eb26fdSRiver Riddle } 2123b6eb26fdSRiver Riddle return success(); 2124b6eb26fdSRiver Riddle } 212501b55f16SRiver Riddle 2126b6eb26fdSRiver Riddle LogicalResult OperationLegalizer::legalizePatternRootUpdates( 2127b6eb26fdSRiver Riddle ConversionPatternRewriter &rewriter, ConversionPatternRewriterImpl &impl, 2128b6eb26fdSRiver Riddle RewriterState &state, RewriterState &newState) { 2129b6eb26fdSRiver Riddle for (int i = state.numRootUpdates, e = newState.numRootUpdates; i != e; ++i) { 2130b6eb26fdSRiver Riddle Operation *op = impl.rootUpdates[i].getOperation(); 2131b6eb26fdSRiver Riddle if (failed(legalize(op, rewriter))) { 2132e49c0e48SUday Bondhugula LLVM_DEBUG(logFailure( 2133e49c0e48SUday Bondhugula impl.logger, "failed to legalize operation updated in-place '{0}'", 2134b6eb26fdSRiver Riddle op->getName())); 2135b6eb26fdSRiver Riddle return failure(); 2136b6eb26fdSRiver Riddle } 2137b6eb26fdSRiver Riddle } 2138b6eb26fdSRiver Riddle return success(); 2139b6eb26fdSRiver Riddle } 2140b6eb26fdSRiver Riddle 2141b6eb26fdSRiver Riddle //===----------------------------------------------------------------------===// 2142b6eb26fdSRiver Riddle // Cost Model 2143b6eb26fdSRiver Riddle 2144b6eb26fdSRiver Riddle void OperationLegalizer::buildLegalizationGraph( 2145b6eb26fdSRiver Riddle LegalizationPatterns &anyOpLegalizerPatterns, 2146b6eb26fdSRiver Riddle DenseMap<OperationName, LegalizationPatterns> &legalizerPatterns) { 2147b6eb26fdSRiver Riddle // A mapping between an operation and a set of operations that can be used to 2148b6eb26fdSRiver Riddle // generate it. 2149b6eb26fdSRiver Riddle DenseMap<OperationName, SmallPtrSet<OperationName, 2>> parentOps; 2150b6eb26fdSRiver Riddle // A mapping between an operation and any currently invalid patterns it has. 2151b6eb26fdSRiver Riddle DenseMap<OperationName, SmallPtrSet<const Pattern *, 2>> invalidPatterns; 2152b6eb26fdSRiver Riddle // A worklist of patterns to consider for legality. 21534efb7754SRiver Riddle SetVector<const Pattern *> patternWorklist; 2154b6eb26fdSRiver Riddle 2155b6eb26fdSRiver Riddle // Build the mapping from operations to the parent ops that may generate them. 2156b6eb26fdSRiver Riddle applicator.walkAllPatterns([&](const Pattern &pattern) { 2157bef481dfSFangrui Song std::optional<OperationName> root = pattern.getRootKind(); 2158b6eb26fdSRiver Riddle 2159b6eb26fdSRiver Riddle // If the pattern has no specific root, we can't analyze the relationship 2160b6eb26fdSRiver Riddle // between the root op and generated operations. Given that, add all such 2161b6eb26fdSRiver Riddle // patterns to the legalization set. 2162b6eb26fdSRiver Riddle if (!root) { 2163b6eb26fdSRiver Riddle anyOpLegalizerPatterns.push_back(&pattern); 2164b6eb26fdSRiver Riddle return; 2165b6eb26fdSRiver Riddle } 2166b6eb26fdSRiver Riddle 2167b6eb26fdSRiver Riddle // Skip operations that are always known to be legal. 2168b6eb26fdSRiver Riddle if (target.getOpAction(*root) == LegalizationAction::Legal) 2169b6eb26fdSRiver Riddle return; 2170b6eb26fdSRiver Riddle 2171b6eb26fdSRiver Riddle // Add this pattern to the invalid set for the root op and record this root 2172b6eb26fdSRiver Riddle // as a parent for any generated operations. 2173b6eb26fdSRiver Riddle invalidPatterns[*root].insert(&pattern); 2174b6eb26fdSRiver Riddle for (auto op : pattern.getGeneratedOps()) 2175b6eb26fdSRiver Riddle parentOps[op].insert(*root); 2176b6eb26fdSRiver Riddle 2177b6eb26fdSRiver Riddle // Add this pattern to the worklist. 2178b6eb26fdSRiver Riddle patternWorklist.insert(&pattern); 2179b6eb26fdSRiver Riddle }); 2180b6eb26fdSRiver Riddle 2181b6eb26fdSRiver Riddle // If there are any patterns that don't have a specific root kind, we can't 2182b6eb26fdSRiver Riddle // make direct assumptions about what operations will never be legalized. 2183b6eb26fdSRiver Riddle // Note: Technically we could, but it would require an analysis that may 2184b6eb26fdSRiver Riddle // recurse into itself. It would be better to perform this kind of filtering 2185b6eb26fdSRiver Riddle // at a higher level than here anyways. 2186b6eb26fdSRiver Riddle if (!anyOpLegalizerPatterns.empty()) { 2187b6eb26fdSRiver Riddle for (const Pattern *pattern : patternWorklist) 2188b6eb26fdSRiver Riddle legalizerPatterns[*pattern->getRootKind()].push_back(pattern); 2189b6eb26fdSRiver Riddle return; 2190b6eb26fdSRiver Riddle } 2191b6eb26fdSRiver Riddle 2192b6eb26fdSRiver Riddle while (!patternWorklist.empty()) { 2193b6eb26fdSRiver Riddle auto *pattern = patternWorklist.pop_back_val(); 2194b6eb26fdSRiver Riddle 2195b6eb26fdSRiver Riddle // Check to see if any of the generated operations are invalid. 2196b6eb26fdSRiver Riddle if (llvm::any_of(pattern->getGeneratedOps(), [&](OperationName op) { 21970de16fafSRamkumar Ramachandra std::optional<LegalizationAction> action = target.getOpAction(op); 2198b6eb26fdSRiver Riddle return !legalizerPatterns.count(op) && 2199b6eb26fdSRiver Riddle (!action || action == LegalizationAction::Illegal); 2200b6eb26fdSRiver Riddle })) 2201b6eb26fdSRiver Riddle continue; 2202b6eb26fdSRiver Riddle 2203b6eb26fdSRiver Riddle // Otherwise, if all of the generated operation are valid, this op is now 2204b6eb26fdSRiver Riddle // legal so add all of the child patterns to the worklist. 2205b6eb26fdSRiver Riddle legalizerPatterns[*pattern->getRootKind()].push_back(pattern); 2206b6eb26fdSRiver Riddle invalidPatterns[*pattern->getRootKind()].erase(pattern); 2207b6eb26fdSRiver Riddle 2208b6eb26fdSRiver Riddle // Add any invalid patterns of the parent operations to see if they have now 2209b6eb26fdSRiver Riddle // become legal. 2210b6eb26fdSRiver Riddle for (auto op : parentOps[*pattern->getRootKind()]) 2211b6eb26fdSRiver Riddle patternWorklist.set_union(invalidPatterns[op]); 2212b6eb26fdSRiver Riddle } 2213b6eb26fdSRiver Riddle } 2214b6eb26fdSRiver Riddle 2215b6eb26fdSRiver Riddle void OperationLegalizer::computeLegalizationGraphBenefit( 2216b6eb26fdSRiver Riddle LegalizationPatterns &anyOpLegalizerPatterns, 2217b6eb26fdSRiver Riddle DenseMap<OperationName, LegalizationPatterns> &legalizerPatterns) { 2218b6eb26fdSRiver Riddle // The smallest pattern depth, when legalizing an operation. 2219b6eb26fdSRiver Riddle DenseMap<OperationName, unsigned> minOpPatternDepth; 2220b6eb26fdSRiver Riddle 2221b6eb26fdSRiver Riddle // For each operation that is transitively legal, compute a cost for it. 2222b6eb26fdSRiver Riddle for (auto &opIt : legalizerPatterns) 2223b6eb26fdSRiver Riddle if (!minOpPatternDepth.count(opIt.first)) 2224b6eb26fdSRiver Riddle computeOpLegalizationDepth(opIt.first, minOpPatternDepth, 2225b6eb26fdSRiver Riddle legalizerPatterns); 2226b6eb26fdSRiver Riddle 2227b6eb26fdSRiver Riddle // Apply the cost model to the patterns that can match any operation. Those 2228b6eb26fdSRiver Riddle // with a specific operation type are already resolved when computing the op 2229b6eb26fdSRiver Riddle // legalization depth. 2230b6eb26fdSRiver Riddle if (!anyOpLegalizerPatterns.empty()) 2231b6eb26fdSRiver Riddle applyCostModelToPatterns(anyOpLegalizerPatterns, minOpPatternDepth, 2232b6eb26fdSRiver Riddle legalizerPatterns); 2233b6eb26fdSRiver Riddle 2234b6eb26fdSRiver Riddle // Apply a cost model to the pattern applicator. We order patterns first by 2235b6eb26fdSRiver Riddle // depth then benefit. `legalizerPatterns` contains per-op patterns by 2236b6eb26fdSRiver Riddle // decreasing benefit. 2237b6eb26fdSRiver Riddle applicator.applyCostModel([&](const Pattern &pattern) { 2238b6eb26fdSRiver Riddle ArrayRef<const Pattern *> orderedPatternList; 2239bef481dfSFangrui Song if (std::optional<OperationName> rootName = pattern.getRootKind()) 2240b6eb26fdSRiver Riddle orderedPatternList = legalizerPatterns[*rootName]; 2241b6eb26fdSRiver Riddle else 2242b6eb26fdSRiver Riddle orderedPatternList = anyOpLegalizerPatterns; 2243b6eb26fdSRiver Riddle 2244b6eb26fdSRiver Riddle // If the pattern is not found, then it was removed and cannot be matched. 22450c29f45aSUday Bondhugula auto *it = llvm::find(orderedPatternList, &pattern); 2246b6eb26fdSRiver Riddle if (it == orderedPatternList.end()) 2247b6eb26fdSRiver Riddle return PatternBenefit::impossibleToMatch(); 2248b6eb26fdSRiver Riddle 2249b6eb26fdSRiver Riddle // Patterns found earlier in the list have higher benefit. 2250b6eb26fdSRiver Riddle return PatternBenefit(std::distance(it, orderedPatternList.end())); 2251b6eb26fdSRiver Riddle }); 2252b6eb26fdSRiver Riddle } 2253b6eb26fdSRiver Riddle 2254b6eb26fdSRiver Riddle unsigned OperationLegalizer::computeOpLegalizationDepth( 2255b6eb26fdSRiver Riddle OperationName op, DenseMap<OperationName, unsigned> &minOpPatternDepth, 2256b6eb26fdSRiver Riddle DenseMap<OperationName, LegalizationPatterns> &legalizerPatterns) { 2257b6eb26fdSRiver Riddle // Check for existing depth. 2258b6eb26fdSRiver Riddle auto depthIt = minOpPatternDepth.find(op); 2259b6eb26fdSRiver Riddle if (depthIt != minOpPatternDepth.end()) 2260b6eb26fdSRiver Riddle return depthIt->second; 2261b6eb26fdSRiver Riddle 2262b6eb26fdSRiver Riddle // If a mapping for this operation does not exist, then this operation 2263b6eb26fdSRiver Riddle // is always legal. Return 0 as the depth for a directly legal operation. 2264b6eb26fdSRiver Riddle auto opPatternsIt = legalizerPatterns.find(op); 2265b6eb26fdSRiver Riddle if (opPatternsIt == legalizerPatterns.end() || opPatternsIt->second.empty()) 2266b6eb26fdSRiver Riddle return 0u; 2267b6eb26fdSRiver Riddle 2268b6eb26fdSRiver Riddle // Record this initial depth in case we encounter this op again when 2269b6eb26fdSRiver Riddle // recursively computing the depth. 2270b6eb26fdSRiver Riddle minOpPatternDepth.try_emplace(op, std::numeric_limits<unsigned>::max()); 2271b6eb26fdSRiver Riddle 2272b6eb26fdSRiver Riddle // Apply the cost model to the operation patterns, and update the minimum 2273b6eb26fdSRiver Riddle // depth. 2274b6eb26fdSRiver Riddle unsigned minDepth = applyCostModelToPatterns( 2275b6eb26fdSRiver Riddle opPatternsIt->second, minOpPatternDepth, legalizerPatterns); 2276b6eb26fdSRiver Riddle minOpPatternDepth[op] = minDepth; 2277b6eb26fdSRiver Riddle return minDepth; 2278b6eb26fdSRiver Riddle } 2279b6eb26fdSRiver Riddle 2280b6eb26fdSRiver Riddle unsigned OperationLegalizer::applyCostModelToPatterns( 2281b6eb26fdSRiver Riddle LegalizationPatterns &patterns, 2282b6eb26fdSRiver Riddle DenseMap<OperationName, unsigned> &minOpPatternDepth, 2283b6eb26fdSRiver Riddle DenseMap<OperationName, LegalizationPatterns> &legalizerPatterns) { 2284b6eb26fdSRiver Riddle unsigned minDepth = std::numeric_limits<unsigned>::max(); 2285b6eb26fdSRiver Riddle 2286b6eb26fdSRiver Riddle // Compute the depth for each pattern within the set. 2287b6eb26fdSRiver Riddle SmallVector<std::pair<const Pattern *, unsigned>, 4> patternsByDepth; 2288b6eb26fdSRiver Riddle patternsByDepth.reserve(patterns.size()); 2289b6eb26fdSRiver Riddle for (const Pattern *pattern : patterns) { 2290015192c6SRiver Riddle unsigned depth = 1; 2291b6eb26fdSRiver Riddle for (auto generatedOp : pattern->getGeneratedOps()) { 2292b6eb26fdSRiver Riddle unsigned generatedOpDepth = computeOpLegalizationDepth( 2293b6eb26fdSRiver Riddle generatedOp, minOpPatternDepth, legalizerPatterns); 2294b6eb26fdSRiver Riddle depth = std::max(depth, generatedOpDepth + 1); 2295b6eb26fdSRiver Riddle } 2296b6eb26fdSRiver Riddle patternsByDepth.emplace_back(pattern, depth); 2297b6eb26fdSRiver Riddle 2298b6eb26fdSRiver Riddle // Update the minimum depth of the pattern list. 2299b6eb26fdSRiver Riddle minDepth = std::min(minDepth, depth); 2300b6eb26fdSRiver Riddle } 2301b6eb26fdSRiver Riddle 2302b6eb26fdSRiver Riddle // If the operation only has one legalization pattern, there is no need to 2303b6eb26fdSRiver Riddle // sort them. 2304b6eb26fdSRiver Riddle if (patternsByDepth.size() == 1) 2305b6eb26fdSRiver Riddle return minDepth; 2306b6eb26fdSRiver Riddle 2307b6eb26fdSRiver Riddle // Sort the patterns by those likely to be the most beneficial. 2308ee3c6de7SXiang Li std::stable_sort(patternsByDepth.begin(), patternsByDepth.end(), 2309ee3c6de7SXiang Li [](const std::pair<const Pattern *, unsigned> &lhs, 2310ee3c6de7SXiang Li const std::pair<const Pattern *, unsigned> &rhs) { 2311b6eb26fdSRiver Riddle // First sort by the smaller pattern legalization 2312b6eb26fdSRiver Riddle // depth. 2313ee3c6de7SXiang Li if (lhs.second != rhs.second) 2314ee3c6de7SXiang Li return lhs.second < rhs.second; 2315b6eb26fdSRiver Riddle 2316b6eb26fdSRiver Riddle // Then sort by the larger pattern benefit. 2317ee3c6de7SXiang Li auto lhsBenefit = lhs.first->getBenefit(); 2318ee3c6de7SXiang Li auto rhsBenefit = rhs.first->getBenefit(); 2319ee3c6de7SXiang Li return lhsBenefit > rhsBenefit; 2320b6eb26fdSRiver Riddle }); 2321b6eb26fdSRiver Riddle 2322b6eb26fdSRiver Riddle // Update the legalization pattern to use the new sorted list. 2323b6eb26fdSRiver Riddle patterns.clear(); 2324b6eb26fdSRiver Riddle for (auto &patternIt : patternsByDepth) 2325b6eb26fdSRiver Riddle patterns.push_back(patternIt.first); 2326b6eb26fdSRiver Riddle return minDepth; 2327b6eb26fdSRiver Riddle } 2328b6eb26fdSRiver Riddle 2329b6eb26fdSRiver Riddle //===----------------------------------------------------------------------===// 2330b6eb26fdSRiver Riddle // OperationConverter 2331b6eb26fdSRiver Riddle //===----------------------------------------------------------------------===// 2332b6eb26fdSRiver Riddle namespace { 2333b6eb26fdSRiver Riddle enum OpConversionMode { 233401b55f16SRiver Riddle /// In this mode, the conversion will ignore failed conversions to allow 233501b55f16SRiver Riddle /// illegal operations to co-exist in the IR. 2336b6eb26fdSRiver Riddle Partial, 2337b6eb26fdSRiver Riddle 233801b55f16SRiver Riddle /// In this mode, all operations must be legal for the given target for the 233901b55f16SRiver Riddle /// conversion to succeed. 2340b6eb26fdSRiver Riddle Full, 2341b6eb26fdSRiver Riddle 234201b55f16SRiver Riddle /// In this mode, operations are analyzed for legality. No actual rewrites are 234301b55f16SRiver Riddle /// applied to the operations on success. 2344b6eb26fdSRiver Riddle Analysis, 2345b6eb26fdSRiver Riddle }; 2346b6eb26fdSRiver Riddle 2347b6eb26fdSRiver Riddle // This class converts operations to a given conversion target via a set of 2348b6eb26fdSRiver Riddle // rewrite patterns. The conversion behaves differently depending on the 2349b6eb26fdSRiver Riddle // conversion mode. 2350b6eb26fdSRiver Riddle struct OperationConverter { 2351b6eb26fdSRiver Riddle explicit OperationConverter(ConversionTarget &target, 235279d7f618SChris Lattner const FrozenRewritePatternSet &patterns, 2353b6eb26fdSRiver Riddle OpConversionMode mode, 2354b6eb26fdSRiver Riddle DenseSet<Operation *> *trackedOps = nullptr) 2355b6eb26fdSRiver Riddle : opLegalizer(target, patterns), mode(mode), trackedOps(trackedOps) {} 2356b6eb26fdSRiver Riddle 2357b6eb26fdSRiver Riddle /// Converts the given operations to the conversion target. 2358b8c6b152SChia-hung Duan LogicalResult 2359b8c6b152SChia-hung Duan convertOperations(ArrayRef<Operation *> ops, 2360b8c6b152SChia-hung Duan function_ref<void(Diagnostic &)> notifyCallback = nullptr); 2361b6eb26fdSRiver Riddle 2362b6eb26fdSRiver Riddle private: 2363b6eb26fdSRiver Riddle /// Converts an operation with the given rewriter. 2364b6eb26fdSRiver Riddle LogicalResult convert(ConversionPatternRewriter &rewriter, Operation *op); 2365b6eb26fdSRiver Riddle 2366b6eb26fdSRiver Riddle /// This method is called after the conversion process to legalize any 2367b6eb26fdSRiver Riddle /// remaining artifacts and complete the conversion. 2368b6eb26fdSRiver Riddle LogicalResult finalize(ConversionPatternRewriter &rewriter); 2369b6eb26fdSRiver Riddle 2370b6eb26fdSRiver Riddle /// Legalize the types of converted block arguments. 2371b6eb26fdSRiver Riddle LogicalResult 2372b6eb26fdSRiver Riddle legalizeConvertedArgumentTypes(ConversionPatternRewriter &rewriter, 2373b6eb26fdSRiver Riddle ConversionPatternRewriterImpl &rewriterImpl); 2374b6eb26fdSRiver Riddle 2375015192c6SRiver Riddle /// Legalize any unresolved type materializations. 2376015192c6SRiver Riddle LogicalResult legalizeUnresolvedMaterializations( 2377015192c6SRiver Riddle ConversionPatternRewriter &rewriter, 2378015192c6SRiver Riddle ConversionPatternRewriterImpl &rewriterImpl, 23790de16fafSRamkumar Ramachandra std::optional<DenseMap<Value, SmallVector<Value>>> &inverseMapping); 2380015192c6SRiver Riddle 2381b6eb26fdSRiver Riddle /// Legalize an operation result that was marked as "erased". 2382b6eb26fdSRiver Riddle LogicalResult 2383b6eb26fdSRiver Riddle legalizeErasedResult(Operation *op, OpResult result, 2384b6eb26fdSRiver Riddle ConversionPatternRewriterImpl &rewriterImpl); 2385b6eb26fdSRiver Riddle 2386b6eb26fdSRiver Riddle /// Legalize an operation result that was replaced with a value of a different 2387b6eb26fdSRiver Riddle /// type. 2388015192c6SRiver Riddle LogicalResult legalizeChangedResultType( 2389015192c6SRiver Riddle Operation *op, OpResult result, Value newValue, 2390015192c6SRiver Riddle TypeConverter *replConverter, ConversionPatternRewriter &rewriter, 23915b91060dSAlex Zinenko ConversionPatternRewriterImpl &rewriterImpl, 2392015192c6SRiver Riddle const DenseMap<Value, SmallVector<Value>> &inverseMapping); 2393b6eb26fdSRiver Riddle 2394b6eb26fdSRiver Riddle /// The legalizer to use when converting operations. 2395b6eb26fdSRiver Riddle OperationLegalizer opLegalizer; 2396b6eb26fdSRiver Riddle 2397b6eb26fdSRiver Riddle /// The conversion mode to use when legalizing operations. 2398b6eb26fdSRiver Riddle OpConversionMode mode; 2399b6eb26fdSRiver Riddle 2400b6eb26fdSRiver Riddle /// A set of pre-existing operations. When mode == OpConversionMode::Analysis, 2401b6eb26fdSRiver Riddle /// this is populated with ops found to be legalizable to the target. 2402b6eb26fdSRiver Riddle /// When mode == OpConversionMode::Partial, this is populated with ops found 2403b6eb26fdSRiver Riddle /// *not* to be legalizable to the target. 2404b6eb26fdSRiver Riddle DenseSet<Operation *> *trackedOps; 2405b6eb26fdSRiver Riddle }; 2406be0a7e9fSMehdi Amini } // namespace 2407b6eb26fdSRiver Riddle 2408b6eb26fdSRiver Riddle LogicalResult OperationConverter::convert(ConversionPatternRewriter &rewriter, 2409b6eb26fdSRiver Riddle Operation *op) { 2410b6eb26fdSRiver Riddle // Legalize the given operation. 2411b6eb26fdSRiver Riddle if (failed(opLegalizer.legalize(op, rewriter))) { 2412b6eb26fdSRiver Riddle // Handle the case of a failed conversion for each of the different modes. 2413b6eb26fdSRiver Riddle // Full conversions expect all operations to be converted. 2414b6eb26fdSRiver Riddle if (mode == OpConversionMode::Full) 2415b6eb26fdSRiver Riddle return op->emitError() 2416b6eb26fdSRiver Riddle << "failed to legalize operation '" << op->getName() << "'"; 2417b6eb26fdSRiver Riddle // Partial conversions allow conversions to fail iff the operation was not 2418b6eb26fdSRiver Riddle // explicitly marked as illegal. If the user provided a nonlegalizableOps 2419b6eb26fdSRiver Riddle // set, non-legalizable ops are included. 2420b6eb26fdSRiver Riddle if (mode == OpConversionMode::Partial) { 2421b6eb26fdSRiver Riddle if (opLegalizer.isIllegal(op)) 2422b6eb26fdSRiver Riddle return op->emitError() 2423b6eb26fdSRiver Riddle << "failed to legalize operation '" << op->getName() 2424b6eb26fdSRiver Riddle << "' that was explicitly marked illegal"; 2425b6eb26fdSRiver Riddle if (trackedOps) 2426b6eb26fdSRiver Riddle trackedOps->insert(op); 2427b6eb26fdSRiver Riddle } 2428b6eb26fdSRiver Riddle } else if (mode == OpConversionMode::Analysis) { 2429b6eb26fdSRiver Riddle // Analysis conversions don't fail if any operations fail to legalize, 2430b6eb26fdSRiver Riddle // they are only interested in the operations that were successfully 2431b6eb26fdSRiver Riddle // legalized. 2432b6eb26fdSRiver Riddle trackedOps->insert(op); 2433b6eb26fdSRiver Riddle } 2434b6eb26fdSRiver Riddle return success(); 2435b6eb26fdSRiver Riddle } 2436b6eb26fdSRiver Riddle 2437b8c6b152SChia-hung Duan LogicalResult OperationConverter::convertOperations( 2438b8c6b152SChia-hung Duan ArrayRef<Operation *> ops, 2439b8c6b152SChia-hung Duan function_ref<void(Diagnostic &)> notifyCallback) { 2440b6eb26fdSRiver Riddle if (ops.empty()) 2441b6eb26fdSRiver Riddle return success(); 2442b6eb26fdSRiver Riddle ConversionTarget &target = opLegalizer.getTarget(); 2443b6eb26fdSRiver Riddle 2444b6eb26fdSRiver Riddle // Compute the set of operations and blocks to convert. 2445015192c6SRiver Riddle SmallVector<Operation *> toConvert; 2446b6eb26fdSRiver Riddle for (auto *op : ops) { 2447b6eb26fdSRiver Riddle toConvert.emplace_back(op); 2448b6eb26fdSRiver Riddle for (auto ®ion : op->getRegions()) 2449b6eb26fdSRiver Riddle if (failed(computeConversionSet(region.getBlocks(), region.getLoc(), 2450b6eb26fdSRiver Riddle toConvert, &target))) 2451b6eb26fdSRiver Riddle return failure(); 2452b6eb26fdSRiver Riddle } 2453b6eb26fdSRiver Riddle 2454b6eb26fdSRiver Riddle // Convert each operation and discard rewrites on failure. 2455b6eb26fdSRiver Riddle ConversionPatternRewriter rewriter(ops.front()->getContext()); 2456b6eb26fdSRiver Riddle ConversionPatternRewriterImpl &rewriterImpl = rewriter.getImpl(); 2457b8c6b152SChia-hung Duan rewriterImpl.notifyCallback = notifyCallback; 2458b8c6b152SChia-hung Duan 2459b6eb26fdSRiver Riddle for (auto *op : toConvert) 2460b6eb26fdSRiver Riddle if (failed(convert(rewriter, op))) 2461b6eb26fdSRiver Riddle return rewriterImpl.discardRewrites(), failure(); 2462b6eb26fdSRiver Riddle 2463b6eb26fdSRiver Riddle // Now that all of the operations have been converted, finalize the conversion 2464b6eb26fdSRiver Riddle // process to ensure any lingering conversion artifacts are cleaned up and 2465b6eb26fdSRiver Riddle // legalized. 2466b6eb26fdSRiver Riddle if (failed(finalize(rewriter))) 2467b6eb26fdSRiver Riddle return rewriterImpl.discardRewrites(), failure(); 246801b55f16SRiver Riddle 2469b6eb26fdSRiver Riddle // After a successful conversion, apply rewrites if this is not an analysis 2470b6eb26fdSRiver Riddle // conversion. 247101b55f16SRiver Riddle if (mode == OpConversionMode::Analysis) { 2472b6eb26fdSRiver Riddle rewriterImpl.discardRewrites(); 247301b55f16SRiver Riddle } else { 2474b6eb26fdSRiver Riddle rewriterImpl.applyRewrites(); 2475a360a978SMehdi Amini 2476a360a978SMehdi Amini // It is possible for a later pattern to erase an op that was originally 2477a360a978SMehdi Amini // identified as illegal and added to the trackedOps, remove it now after 2478a360a978SMehdi Amini // replacements have been computed. 2479a360a978SMehdi Amini if (trackedOps) 2480a360a978SMehdi Amini for (auto &repl : rewriterImpl.replacements) 2481a360a978SMehdi Amini trackedOps->erase(repl.first); 2482a360a978SMehdi Amini } 2483b6eb26fdSRiver Riddle return success(); 2484b6eb26fdSRiver Riddle } 2485b6eb26fdSRiver Riddle 2486b6eb26fdSRiver Riddle LogicalResult 2487b6eb26fdSRiver Riddle OperationConverter::finalize(ConversionPatternRewriter &rewriter) { 24880de16fafSRamkumar Ramachandra std::optional<DenseMap<Value, SmallVector<Value>>> inverseMapping; 2489b6eb26fdSRiver Riddle ConversionPatternRewriterImpl &rewriterImpl = rewriter.getImpl(); 2490015192c6SRiver Riddle if (failed(legalizeUnresolvedMaterializations(rewriter, rewriterImpl, 2491015192c6SRiver Riddle inverseMapping)) || 2492015192c6SRiver Riddle failed(legalizeConvertedArgumentTypes(rewriter, rewriterImpl))) 2493b6eb26fdSRiver Riddle return failure(); 2494b6eb26fdSRiver Riddle 24955b91060dSAlex Zinenko if (rewriterImpl.operationsWithChangedResults.empty()) 24965b91060dSAlex Zinenko return success(); 24975b91060dSAlex Zinenko 2498b6eb26fdSRiver Riddle // Process requested operation replacements. 2499b6eb26fdSRiver Riddle for (unsigned i = 0, e = rewriterImpl.operationsWithChangedResults.size(); 2500b6eb26fdSRiver Riddle i != e; ++i) { 2501b6eb26fdSRiver Riddle unsigned replIdx = rewriterImpl.operationsWithChangedResults[i]; 2502b6eb26fdSRiver Riddle auto &repl = *(rewriterImpl.replacements.begin() + replIdx); 2503b6eb26fdSRiver Riddle for (OpResult result : repl.first->getResults()) { 2504b6eb26fdSRiver Riddle Value newValue = rewriterImpl.mapping.lookupOrNull(result); 2505b6eb26fdSRiver Riddle 2506b6eb26fdSRiver Riddle // If the operation result was replaced with null, all of the uses of this 2507b6eb26fdSRiver Riddle // value should be replaced. 2508b6eb26fdSRiver Riddle if (!newValue) { 2509b6eb26fdSRiver Riddle if (failed(legalizeErasedResult(repl.first, result, rewriterImpl))) 2510b6eb26fdSRiver Riddle return failure(); 2511b6eb26fdSRiver Riddle continue; 2512b6eb26fdSRiver Riddle } 2513b6eb26fdSRiver Riddle 2514b6eb26fdSRiver Riddle // Otherwise, check to see if the type of the result changed. 2515b6eb26fdSRiver Riddle if (result.getType() == newValue.getType()) 2516b6eb26fdSRiver Riddle continue; 2517b6eb26fdSRiver Riddle 25185b91060dSAlex Zinenko // Compute the inverse mapping only if it is really needed. 25195b91060dSAlex Zinenko if (!inverseMapping) 25205b91060dSAlex Zinenko inverseMapping = rewriterImpl.mapping.getInverse(); 25215b91060dSAlex Zinenko 2522b6eb26fdSRiver Riddle // Legalize this result. 2523b6eb26fdSRiver Riddle rewriter.setInsertionPoint(repl.first); 2524b6eb26fdSRiver Riddle if (failed(legalizeChangedResultType(repl.first, result, newValue, 2525b6eb26fdSRiver Riddle repl.second.converter, rewriter, 25265b91060dSAlex Zinenko rewriterImpl, *inverseMapping))) 2527b6eb26fdSRiver Riddle return failure(); 2528b6eb26fdSRiver Riddle 2529b6eb26fdSRiver Riddle // Update the end iterator for this loop in the case it was updated 2530b6eb26fdSRiver Riddle // when legalizing generated conversion operations. 2531b6eb26fdSRiver Riddle e = rewriterImpl.operationsWithChangedResults.size(); 2532b6eb26fdSRiver Riddle } 2533b6eb26fdSRiver Riddle } 2534b6eb26fdSRiver Riddle return success(); 2535b6eb26fdSRiver Riddle } 2536b6eb26fdSRiver Riddle 2537b6eb26fdSRiver Riddle LogicalResult OperationConverter::legalizeConvertedArgumentTypes( 2538b6eb26fdSRiver Riddle ConversionPatternRewriter &rewriter, 2539b6eb26fdSRiver Riddle ConversionPatternRewriterImpl &rewriterImpl) { 2540b6eb26fdSRiver Riddle // Functor used to check if all users of a value will be dead after 2541b6eb26fdSRiver Riddle // conversion. 2542b6eb26fdSRiver Riddle auto findLiveUser = [&](Value val) { 2543b6eb26fdSRiver Riddle auto liveUserIt = llvm::find_if_not(val.getUsers(), [&](Operation *user) { 2544b6eb26fdSRiver Riddle return rewriterImpl.isOpIgnored(user); 2545b6eb26fdSRiver Riddle }); 2546b6eb26fdSRiver Riddle return liveUserIt == val.user_end() ? nullptr : *liveUserIt; 2547b6eb26fdSRiver Riddle }; 2548015192c6SRiver Riddle return rewriterImpl.argConverter.materializeLiveConversions( 2549015192c6SRiver Riddle rewriterImpl.mapping, rewriter, findLiveUser); 2550b6eb26fdSRiver Riddle } 2551015192c6SRiver Riddle 2552015192c6SRiver Riddle /// Replace the results of a materialization operation with the given values. 2553015192c6SRiver Riddle static void 2554015192c6SRiver Riddle replaceMaterialization(ConversionPatternRewriterImpl &rewriterImpl, 2555015192c6SRiver Riddle ResultRange matResults, ValueRange values, 2556015192c6SRiver Riddle DenseMap<Value, SmallVector<Value>> &inverseMapping) { 2557015192c6SRiver Riddle matResults.replaceAllUsesWith(values); 2558015192c6SRiver Riddle 2559015192c6SRiver Riddle // For each of the materialization results, update the inverse mappings to 2560015192c6SRiver Riddle // point to the replacement values. 25619fa59e76SBenjamin Kramer for (auto [matResult, newValue] : llvm::zip(matResults, values)) { 2562015192c6SRiver Riddle auto inverseMapIt = inverseMapping.find(matResult); 2563015192c6SRiver Riddle if (inverseMapIt == inverseMapping.end()) 2564015192c6SRiver Riddle continue; 2565015192c6SRiver Riddle 2566015192c6SRiver Riddle // Update the reverse mapping, or remove the mapping if we couldn't update 2567015192c6SRiver Riddle // it. Not being able to update signals that the mapping would have become 2568015192c6SRiver Riddle // circular (i.e. %foo -> newValue -> %foo), which may occur as values are 2569015192c6SRiver Riddle // propagated through temporary materializations. We simply drop the 2570015192c6SRiver Riddle // mapping, and let the post-conversion replacement logic handle updating 2571015192c6SRiver Riddle // uses. 2572015192c6SRiver Riddle for (Value inverseMapVal : inverseMapIt->second) 2573015192c6SRiver Riddle if (!rewriterImpl.mapping.tryMap(inverseMapVal, newValue)) 2574015192c6SRiver Riddle rewriterImpl.mapping.erase(inverseMapVal); 2575015192c6SRiver Riddle } 2576015192c6SRiver Riddle } 2577015192c6SRiver Riddle 2578015192c6SRiver Riddle /// Compute all of the unresolved materializations that will persist beyond the 2579015192c6SRiver Riddle /// conversion process, and require inserting a proper user materialization for. 2580015192c6SRiver Riddle static void computeNecessaryMaterializations( 2581015192c6SRiver Riddle DenseMap<Operation *, UnresolvedMaterialization *> &materializationOps, 2582015192c6SRiver Riddle ConversionPatternRewriter &rewriter, 2583015192c6SRiver Riddle ConversionPatternRewriterImpl &rewriterImpl, 2584015192c6SRiver Riddle DenseMap<Value, SmallVector<Value>> &inverseMapping, 2585015192c6SRiver Riddle SetVector<UnresolvedMaterialization *> &necessaryMaterializations) { 2586015192c6SRiver Riddle auto isLive = [&](Value value) { 2587015192c6SRiver Riddle auto findFn = [&](Operation *user) { 2588015192c6SRiver Riddle auto matIt = materializationOps.find(user); 2589015192c6SRiver Riddle if (matIt != materializationOps.end()) 2590015192c6SRiver Riddle return !necessaryMaterializations.count(matIt->second); 2591015192c6SRiver Riddle return rewriterImpl.isOpIgnored(user); 2592015192c6SRiver Riddle }; 2593d4a53f3bSAlex Zinenko // This value may be replacing another value that has a live user. 2594d4a53f3bSAlex Zinenko for (Value inv : inverseMapping.lookup(value)) 2595d4a53f3bSAlex Zinenko if (llvm::find_if_not(inv.getUsers(), findFn) != inv.user_end()) 2596d4a53f3bSAlex Zinenko return true; 2597d4a53f3bSAlex Zinenko // Or have live users itself. 2598015192c6SRiver Riddle return llvm::find_if_not(value.getUsers(), findFn) != value.user_end(); 2599015192c6SRiver Riddle }; 2600015192c6SRiver Riddle 2601015192c6SRiver Riddle llvm::unique_function<Value(Value, Value, Type)> lookupRemappedValue = 2602015192c6SRiver Riddle [&](Value invalidRoot, Value value, Type type) { 2603015192c6SRiver Riddle // Check to see if the input operation was remapped to a variant of the 2604015192c6SRiver Riddle // output. 2605015192c6SRiver Riddle Value remappedValue = rewriterImpl.mapping.lookupOrDefault(value, type); 2606015192c6SRiver Riddle if (remappedValue.getType() == type && remappedValue != invalidRoot) 2607015192c6SRiver Riddle return remappedValue; 2608015192c6SRiver Riddle 2609015192c6SRiver Riddle // Check to see if the input is a materialization operation that 2610015192c6SRiver Riddle // provides an inverse conversion. We just check blindly for 2611015192c6SRiver Riddle // UnrealizedConversionCastOp here, but it has no effect on correctness. 2612015192c6SRiver Riddle auto inputCastOp = value.getDefiningOp<UnrealizedConversionCastOp>(); 2613015192c6SRiver Riddle if (inputCastOp && inputCastOp->getNumOperands() == 1) 2614015192c6SRiver Riddle return lookupRemappedValue(invalidRoot, inputCastOp->getOperand(0), 2615015192c6SRiver Riddle type); 2616015192c6SRiver Riddle 2617015192c6SRiver Riddle return Value(); 2618015192c6SRiver Riddle }; 2619015192c6SRiver Riddle 2620015192c6SRiver Riddle SetVector<UnresolvedMaterialization *> worklist; 2621015192c6SRiver Riddle for (auto &mat : rewriterImpl.unresolvedMaterializations) { 2622015192c6SRiver Riddle materializationOps.try_emplace(mat.getOp(), &mat); 2623015192c6SRiver Riddle worklist.insert(&mat); 2624015192c6SRiver Riddle } 2625015192c6SRiver Riddle while (!worklist.empty()) { 2626015192c6SRiver Riddle UnresolvedMaterialization *mat = worklist.pop_back_val(); 2627015192c6SRiver Riddle UnrealizedConversionCastOp op = mat->getOp(); 2628015192c6SRiver Riddle 2629015192c6SRiver Riddle // We currently only handle target materializations here. 2630015192c6SRiver Riddle assert(op->getNumResults() == 1 && "unexpected materialization type"); 2631015192c6SRiver Riddle OpResult opResult = op->getOpResult(0); 2632015192c6SRiver Riddle Type outputType = opResult.getType(); 2633015192c6SRiver Riddle Operation::operand_range inputOperands = op.getOperands(); 2634015192c6SRiver Riddle 2635015192c6SRiver Riddle // Try to forward propagate operands for user conversion casts that result 2636015192c6SRiver Riddle // in the input types of the current cast. 2637015192c6SRiver Riddle for (Operation *user : llvm::make_early_inc_range(opResult.getUsers())) { 2638015192c6SRiver Riddle auto castOp = dyn_cast<UnrealizedConversionCastOp>(user); 2639015192c6SRiver Riddle if (!castOp) 2640015192c6SRiver Riddle continue; 2641015192c6SRiver Riddle if (castOp->getResultTypes() == inputOperands.getTypes()) { 2642015192c6SRiver Riddle replaceMaterialization(rewriterImpl, opResult, inputOperands, 2643015192c6SRiver Riddle inverseMapping); 2644015192c6SRiver Riddle necessaryMaterializations.remove(materializationOps.lookup(user)); 2645015192c6SRiver Riddle } 2646015192c6SRiver Riddle } 2647015192c6SRiver Riddle 2648015192c6SRiver Riddle // Try to avoid materializing a resolved materialization if possible. 2649015192c6SRiver Riddle // Handle the case of a 1-1 materialization. 2650015192c6SRiver Riddle if (inputOperands.size() == 1) { 2651015192c6SRiver Riddle // Check to see if the input operation was remapped to a variant of the 2652015192c6SRiver Riddle // output. 2653015192c6SRiver Riddle Value remappedValue = 2654015192c6SRiver Riddle lookupRemappedValue(opResult, inputOperands[0], outputType); 2655015192c6SRiver Riddle if (remappedValue && remappedValue != opResult) { 2656015192c6SRiver Riddle replaceMaterialization(rewriterImpl, opResult, remappedValue, 2657015192c6SRiver Riddle inverseMapping); 2658015192c6SRiver Riddle necessaryMaterializations.remove(mat); 2659015192c6SRiver Riddle continue; 2660015192c6SRiver Riddle } 2661015192c6SRiver Riddle } else { 2662015192c6SRiver Riddle // TODO: Avoid materializing other types of conversions here. 2663015192c6SRiver Riddle } 2664015192c6SRiver Riddle 2665015192c6SRiver Riddle // Check to see if this is an argument materialization. 2666015192c6SRiver Riddle auto isBlockArg = [](Value v) { return v.isa<BlockArgument>(); }; 2667015192c6SRiver Riddle if (llvm::any_of(op->getOperands(), isBlockArg) || 2668015192c6SRiver Riddle llvm::any_of(inverseMapping[op->getResult(0)], isBlockArg)) { 2669015192c6SRiver Riddle mat->setKind(UnresolvedMaterialization::Argument); 2670015192c6SRiver Riddle } 2671015192c6SRiver Riddle 2672015192c6SRiver Riddle // If the materialization does not have any live users, we don't need to 2673015192c6SRiver Riddle // generate a user materialization for it. 2674015192c6SRiver Riddle // FIXME: For argument materializations, we currently need to check if any 2675015192c6SRiver Riddle // of the inverse mapped values are used because some patterns expect blind 2676015192c6SRiver Riddle // value replacement even if the types differ in some cases. When those 2677015192c6SRiver Riddle // patterns are fixed, we can drop the argument special case here. 2678015192c6SRiver Riddle bool isMaterializationLive = isLive(opResult); 2679015192c6SRiver Riddle if (mat->getKind() == UnresolvedMaterialization::Argument) 2680015192c6SRiver Riddle isMaterializationLive |= llvm::any_of(inverseMapping[opResult], isLive); 2681015192c6SRiver Riddle if (!isMaterializationLive) 2682015192c6SRiver Riddle continue; 2683015192c6SRiver Riddle if (!necessaryMaterializations.insert(mat)) 2684015192c6SRiver Riddle continue; 2685015192c6SRiver Riddle 2686015192c6SRiver Riddle // Reprocess input materializations to see if they have an updated status. 2687015192c6SRiver Riddle for (Value input : inputOperands) { 2688015192c6SRiver Riddle if (auto parentOp = input.getDefiningOp<UnrealizedConversionCastOp>()) { 2689015192c6SRiver Riddle if (auto *mat = materializationOps.lookup(parentOp)) 2690015192c6SRiver Riddle worklist.insert(mat); 2691015192c6SRiver Riddle } 2692015192c6SRiver Riddle } 2693015192c6SRiver Riddle } 2694015192c6SRiver Riddle } 2695015192c6SRiver Riddle 2696015192c6SRiver Riddle /// Legalize the given unresolved materialization. Returns success if the 2697015192c6SRiver Riddle /// materialization was legalized, failure otherise. 2698015192c6SRiver Riddle static LogicalResult legalizeUnresolvedMaterialization( 2699015192c6SRiver Riddle UnresolvedMaterialization &mat, 2700015192c6SRiver Riddle DenseMap<Operation *, UnresolvedMaterialization *> &materializationOps, 2701015192c6SRiver Riddle ConversionPatternRewriter &rewriter, 2702015192c6SRiver Riddle ConversionPatternRewriterImpl &rewriterImpl, 2703015192c6SRiver Riddle DenseMap<Value, SmallVector<Value>> &inverseMapping) { 2704015192c6SRiver Riddle auto findLiveUser = [&](auto &&users) { 2705015192c6SRiver Riddle auto liveUserIt = llvm::find_if_not( 2706015192c6SRiver Riddle users, [&](Operation *user) { return rewriterImpl.isOpIgnored(user); }); 2707015192c6SRiver Riddle return liveUserIt == users.end() ? nullptr : *liveUserIt; 2708015192c6SRiver Riddle }; 2709015192c6SRiver Riddle 2710015192c6SRiver Riddle llvm::unique_function<Value(Value, Type)> lookupRemappedValue = 2711015192c6SRiver Riddle [&](Value value, Type type) { 2712015192c6SRiver Riddle // Check to see if the input operation was remapped to a variant of the 2713015192c6SRiver Riddle // output. 2714015192c6SRiver Riddle Value remappedValue = rewriterImpl.mapping.lookupOrDefault(value, type); 2715015192c6SRiver Riddle if (remappedValue.getType() == type) 2716015192c6SRiver Riddle return remappedValue; 2717015192c6SRiver Riddle return Value(); 2718015192c6SRiver Riddle }; 2719015192c6SRiver Riddle 2720015192c6SRiver Riddle UnrealizedConversionCastOp op = mat.getOp(); 2721015192c6SRiver Riddle if (!rewriterImpl.ignoredOps.insert(op)) 2722015192c6SRiver Riddle return success(); 2723015192c6SRiver Riddle 2724015192c6SRiver Riddle // We currently only handle target materializations here. 2725015192c6SRiver Riddle OpResult opResult = op->getOpResult(0); 2726015192c6SRiver Riddle Operation::operand_range inputOperands = op.getOperands(); 2727015192c6SRiver Riddle Type outputType = opResult.getType(); 2728015192c6SRiver Riddle 2729015192c6SRiver Riddle // If any input to this materialization is another materialization, resolve 2730015192c6SRiver Riddle // the input first. 2731015192c6SRiver Riddle for (Value value : op->getOperands()) { 2732015192c6SRiver Riddle auto valueCast = value.getDefiningOp<UnrealizedConversionCastOp>(); 2733015192c6SRiver Riddle if (!valueCast) 2734015192c6SRiver Riddle continue; 2735015192c6SRiver Riddle 2736015192c6SRiver Riddle auto matIt = materializationOps.find(valueCast); 2737015192c6SRiver Riddle if (matIt != materializationOps.end()) 2738015192c6SRiver Riddle if (failed(legalizeUnresolvedMaterialization( 2739015192c6SRiver Riddle *matIt->second, materializationOps, rewriter, rewriterImpl, 2740015192c6SRiver Riddle inverseMapping))) 2741015192c6SRiver Riddle return failure(); 2742015192c6SRiver Riddle } 2743015192c6SRiver Riddle 2744015192c6SRiver Riddle // Perform a last ditch attempt to avoid materializing a resolved 2745015192c6SRiver Riddle // materialization if possible. 2746015192c6SRiver Riddle // Handle the case of a 1-1 materialization. 2747015192c6SRiver Riddle if (inputOperands.size() == 1) { 2748015192c6SRiver Riddle // Check to see if the input operation was remapped to a variant of the 2749015192c6SRiver Riddle // output. 2750015192c6SRiver Riddle Value remappedValue = lookupRemappedValue(inputOperands[0], outputType); 2751015192c6SRiver Riddle if (remappedValue && remappedValue != opResult) { 2752015192c6SRiver Riddle replaceMaterialization(rewriterImpl, opResult, remappedValue, 2753015192c6SRiver Riddle inverseMapping); 2754015192c6SRiver Riddle return success(); 2755015192c6SRiver Riddle } 2756015192c6SRiver Riddle } else { 2757015192c6SRiver Riddle // TODO: Avoid materializing other types of conversions here. 2758015192c6SRiver Riddle } 2759015192c6SRiver Riddle 2760015192c6SRiver Riddle // Try to materialize the conversion. 2761015192c6SRiver Riddle if (TypeConverter *converter = mat.getConverter()) { 2762015192c6SRiver Riddle // FIXME: Determine a suitable insertion location when there are multiple 2763015192c6SRiver Riddle // inputs. 2764015192c6SRiver Riddle if (inputOperands.size() == 1) 2765015192c6SRiver Riddle rewriter.setInsertionPointAfterValue(inputOperands.front()); 2766015192c6SRiver Riddle else 2767015192c6SRiver Riddle rewriter.setInsertionPoint(op); 2768015192c6SRiver Riddle 2769015192c6SRiver Riddle Value newMaterialization; 2770015192c6SRiver Riddle switch (mat.getKind()) { 2771015192c6SRiver Riddle case UnresolvedMaterialization::Argument: 2772015192c6SRiver Riddle // Try to materialize an argument conversion. 2773015192c6SRiver Riddle // FIXME: The current argument materialization hook expects the original 2774015192c6SRiver Riddle // output type, even though it doesn't use that as the actual output type 2775015192c6SRiver Riddle // of the generated IR. The output type is just used as an indicator of 2776015192c6SRiver Riddle // the type of materialization to do. This behavior is really awkward in 2777015192c6SRiver Riddle // that it diverges from the behavior of the other hooks, and can be 2778015192c6SRiver Riddle // easily misunderstood. We should clean up the argument hooks to better 2779015192c6SRiver Riddle // represent the desired invariants we actually care about. 2780015192c6SRiver Riddle newMaterialization = converter->materializeArgumentConversion( 2781015192c6SRiver Riddle rewriter, op->getLoc(), mat.getOrigOutputType(), inputOperands); 2782015192c6SRiver Riddle if (newMaterialization) 2783015192c6SRiver Riddle break; 2784015192c6SRiver Riddle 2785015192c6SRiver Riddle // If an argument materialization failed, fallback to trying a target 2786015192c6SRiver Riddle // materialization. 2787fc63c054SFangrui Song [[fallthrough]]; 2788015192c6SRiver Riddle case UnresolvedMaterialization::Target: 2789015192c6SRiver Riddle newMaterialization = converter->materializeTargetConversion( 2790015192c6SRiver Riddle rewriter, op->getLoc(), outputType, inputOperands); 2791015192c6SRiver Riddle break; 2792015192c6SRiver Riddle } 2793015192c6SRiver Riddle if (newMaterialization) { 2794015192c6SRiver Riddle replaceMaterialization(rewriterImpl, opResult, newMaterialization, 2795015192c6SRiver Riddle inverseMapping); 2796015192c6SRiver Riddle return success(); 2797015192c6SRiver Riddle } 2798015192c6SRiver Riddle } 2799015192c6SRiver Riddle 2800015192c6SRiver Riddle InFlightDiagnostic diag = op->emitError() 2801015192c6SRiver Riddle << "failed to legalize unresolved materialization " 2802015192c6SRiver Riddle "from " 2803015192c6SRiver Riddle << inputOperands.getTypes() << " to " << outputType 2804015192c6SRiver Riddle << " that remained live after conversion"; 2805015192c6SRiver Riddle if (Operation *liveUser = findLiveUser(op->getUsers())) { 2806015192c6SRiver Riddle diag.attachNote(liveUser->getLoc()) 2807015192c6SRiver Riddle << "see existing live user here: " << *liveUser; 2808015192c6SRiver Riddle } 2809015192c6SRiver Riddle return failure(); 2810015192c6SRiver Riddle } 2811015192c6SRiver Riddle 2812015192c6SRiver Riddle LogicalResult OperationConverter::legalizeUnresolvedMaterializations( 2813015192c6SRiver Riddle ConversionPatternRewriter &rewriter, 2814015192c6SRiver Riddle ConversionPatternRewriterImpl &rewriterImpl, 28150de16fafSRamkumar Ramachandra std::optional<DenseMap<Value, SmallVector<Value>>> &inverseMapping) { 2816015192c6SRiver Riddle if (rewriterImpl.unresolvedMaterializations.empty()) 2817015192c6SRiver Riddle return success(); 2818015192c6SRiver Riddle inverseMapping = rewriterImpl.mapping.getInverse(); 2819015192c6SRiver Riddle 2820015192c6SRiver Riddle // As an initial step, compute all of the inserted materializations that we 2821015192c6SRiver Riddle // expect to persist beyond the conversion process. 2822015192c6SRiver Riddle DenseMap<Operation *, UnresolvedMaterialization *> materializationOps; 2823015192c6SRiver Riddle SetVector<UnresolvedMaterialization *> necessaryMaterializations; 2824015192c6SRiver Riddle computeNecessaryMaterializations(materializationOps, rewriter, rewriterImpl, 2825015192c6SRiver Riddle *inverseMapping, necessaryMaterializations); 2826015192c6SRiver Riddle 2827015192c6SRiver Riddle // Once computed, legalize any necessary materializations. 2828015192c6SRiver Riddle for (auto *mat : necessaryMaterializations) { 2829015192c6SRiver Riddle if (failed(legalizeUnresolvedMaterialization( 2830015192c6SRiver Riddle *mat, materializationOps, rewriter, rewriterImpl, *inverseMapping))) 2831015192c6SRiver Riddle return failure(); 2832b6eb26fdSRiver Riddle } 2833b6eb26fdSRiver Riddle return success(); 2834b6eb26fdSRiver Riddle } 2835b6eb26fdSRiver Riddle 2836b6eb26fdSRiver Riddle LogicalResult OperationConverter::legalizeErasedResult( 2837b6eb26fdSRiver Riddle Operation *op, OpResult result, 2838b6eb26fdSRiver Riddle ConversionPatternRewriterImpl &rewriterImpl) { 2839b6eb26fdSRiver Riddle // If the operation result was replaced with null, all of the uses of this 2840b6eb26fdSRiver Riddle // value should be replaced. 2841b6eb26fdSRiver Riddle auto liveUserIt = llvm::find_if_not(result.getUsers(), [&](Operation *user) { 2842b6eb26fdSRiver Riddle return rewriterImpl.isOpIgnored(user); 2843b6eb26fdSRiver Riddle }); 2844b6eb26fdSRiver Riddle if (liveUserIt != result.user_end()) { 2845b6eb26fdSRiver Riddle InFlightDiagnostic diag = op->emitError("failed to legalize operation '") 2846b6eb26fdSRiver Riddle << op->getName() << "' marked as erased"; 2847b6eb26fdSRiver Riddle diag.attachNote(liveUserIt->getLoc()) 2848b6eb26fdSRiver Riddle << "found live user of result #" << result.getResultNumber() << ": " 2849b6eb26fdSRiver Riddle << *liveUserIt; 2850b6eb26fdSRiver Riddle return failure(); 2851b6eb26fdSRiver Riddle } 2852b6eb26fdSRiver Riddle return success(); 2853b6eb26fdSRiver Riddle } 2854b6eb26fdSRiver Riddle 28555b91060dSAlex Zinenko /// Finds a user of the given value, or of any other value that the given value 28565b91060dSAlex Zinenko /// replaced, that was not replaced in the conversion process. 2857015192c6SRiver Riddle static Operation *findLiveUserOfReplaced( 2858015192c6SRiver Riddle Value initialValue, ConversionPatternRewriterImpl &rewriterImpl, 2859015192c6SRiver Riddle const DenseMap<Value, SmallVector<Value>> &inverseMapping) { 2860015192c6SRiver Riddle SmallVector<Value> worklist(1, initialValue); 2861015192c6SRiver Riddle while (!worklist.empty()) { 2862015192c6SRiver Riddle Value value = worklist.pop_back_val(); 2863015192c6SRiver Riddle 28645b91060dSAlex Zinenko // Walk the users of this value to see if there are any live users that 28655b91060dSAlex Zinenko // weren't replaced during conversion. 28665b91060dSAlex Zinenko auto liveUserIt = llvm::find_if_not(value.getUsers(), [&](Operation *user) { 28675b91060dSAlex Zinenko return rewriterImpl.isOpIgnored(user); 28685b91060dSAlex Zinenko }); 28695b91060dSAlex Zinenko if (liveUserIt != value.user_end()) 28705b91060dSAlex Zinenko return *liveUserIt; 2871015192c6SRiver Riddle auto mapIt = inverseMapping.find(value); 2872015192c6SRiver Riddle if (mapIt != inverseMapping.end()) 2873015192c6SRiver Riddle worklist.append(mapIt->second); 2874015192c6SRiver Riddle } 28755b91060dSAlex Zinenko return nullptr; 28765b91060dSAlex Zinenko } 28775b91060dSAlex Zinenko 2878b6eb26fdSRiver Riddle LogicalResult OperationConverter::legalizeChangedResultType( 2879b6eb26fdSRiver Riddle Operation *op, OpResult result, Value newValue, 2880b6eb26fdSRiver Riddle TypeConverter *replConverter, ConversionPatternRewriter &rewriter, 28815b91060dSAlex Zinenko ConversionPatternRewriterImpl &rewriterImpl, 2882015192c6SRiver Riddle const DenseMap<Value, SmallVector<Value>> &inverseMapping) { 28835b91060dSAlex Zinenko Operation *liveUser = 28845b91060dSAlex Zinenko findLiveUserOfReplaced(result, rewriterImpl, inverseMapping); 28855b91060dSAlex Zinenko if (!liveUser) 2886b6eb26fdSRiver Riddle return success(); 2887b6eb26fdSRiver Riddle 2888015192c6SRiver Riddle // Functor used to emit a conversion error for a failed materialization. 2889015192c6SRiver Riddle auto emitConversionError = [&] { 2890b6eb26fdSRiver Riddle InFlightDiagnostic diag = op->emitError() 2891b6eb26fdSRiver Riddle << "failed to materialize conversion for result #" 2892b6eb26fdSRiver Riddle << result.getResultNumber() << " of operation '" 2893b6eb26fdSRiver Riddle << op->getName() 2894b6eb26fdSRiver Riddle << "' that remained live after conversion"; 28955b91060dSAlex Zinenko diag.attachNote(liveUser->getLoc()) 28965b91060dSAlex Zinenko << "see existing live user here: " << *liveUser; 2897b6eb26fdSRiver Riddle return failure(); 2898015192c6SRiver Riddle }; 2899b6eb26fdSRiver Riddle 2900015192c6SRiver Riddle // If the replacement has a type converter, attempt to materialize a 2901015192c6SRiver Riddle // conversion back to the original type. 2902015192c6SRiver Riddle if (!replConverter) 2903015192c6SRiver Riddle return emitConversionError(); 2904015192c6SRiver Riddle 2905015192c6SRiver Riddle // Materialize a conversion for this live result value. 2906015192c6SRiver Riddle Type resultType = result.getType(); 2907015192c6SRiver Riddle Value convertedValue = replConverter->materializeSourceConversion( 2908015192c6SRiver Riddle rewriter, op->getLoc(), resultType, newValue); 2909015192c6SRiver Riddle if (!convertedValue) 2910015192c6SRiver Riddle return emitConversionError(); 2911b6eb26fdSRiver Riddle 2912b6eb26fdSRiver Riddle rewriterImpl.mapping.map(result, convertedValue); 2913b6eb26fdSRiver Riddle return success(); 2914b6eb26fdSRiver Riddle } 2915b6eb26fdSRiver Riddle 2916b6eb26fdSRiver Riddle //===----------------------------------------------------------------------===// 2917b6eb26fdSRiver Riddle // Type Conversion 2918b6eb26fdSRiver Riddle //===----------------------------------------------------------------------===// 2919b6eb26fdSRiver Riddle 2920b6eb26fdSRiver Riddle void TypeConverter::SignatureConversion::addInputs(unsigned origInputNo, 2921b6eb26fdSRiver Riddle ArrayRef<Type> types) { 2922b6eb26fdSRiver Riddle assert(!types.empty() && "expected valid types"); 2923b6eb26fdSRiver Riddle remapInput(origInputNo, /*newInputNo=*/argTypes.size(), types.size()); 2924b6eb26fdSRiver Riddle addInputs(types); 2925b6eb26fdSRiver Riddle } 2926b6eb26fdSRiver Riddle 2927b6eb26fdSRiver Riddle void TypeConverter::SignatureConversion::addInputs(ArrayRef<Type> types) { 2928b6eb26fdSRiver Riddle assert(!types.empty() && 2929b6eb26fdSRiver Riddle "1->0 type remappings don't need to be added explicitly"); 2930b6eb26fdSRiver Riddle argTypes.append(types.begin(), types.end()); 2931b6eb26fdSRiver Riddle } 2932b6eb26fdSRiver Riddle 2933b6eb26fdSRiver Riddle void TypeConverter::SignatureConversion::remapInput(unsigned origInputNo, 2934b6eb26fdSRiver Riddle unsigned newInputNo, 2935b6eb26fdSRiver Riddle unsigned newInputCount) { 2936b6eb26fdSRiver Riddle assert(!remappedInputs[origInputNo] && "input has already been remapped"); 2937b6eb26fdSRiver Riddle assert(newInputCount != 0 && "expected valid input count"); 2938b6eb26fdSRiver Riddle remappedInputs[origInputNo] = 2939b6eb26fdSRiver Riddle InputMapping{newInputNo, newInputCount, /*replacementValue=*/nullptr}; 2940b6eb26fdSRiver Riddle } 2941b6eb26fdSRiver Riddle 2942b6eb26fdSRiver Riddle void TypeConverter::SignatureConversion::remapInput(unsigned origInputNo, 2943b6eb26fdSRiver Riddle Value replacementValue) { 2944b6eb26fdSRiver Riddle assert(!remappedInputs[origInputNo] && "input has already been remapped"); 2945b6eb26fdSRiver Riddle remappedInputs[origInputNo] = 2946b6eb26fdSRiver Riddle InputMapping{origInputNo, /*size=*/0, replacementValue}; 2947b6eb26fdSRiver Riddle } 2948b6eb26fdSRiver Riddle 2949b6eb26fdSRiver Riddle LogicalResult TypeConverter::convertType(Type t, 2950b6eb26fdSRiver Riddle SmallVectorImpl<Type> &results) { 2951b6eb26fdSRiver Riddle auto existingIt = cachedDirectConversions.find(t); 2952b6eb26fdSRiver Riddle if (existingIt != cachedDirectConversions.end()) { 2953b6eb26fdSRiver Riddle if (existingIt->second) 2954b6eb26fdSRiver Riddle results.push_back(existingIt->second); 2955b6eb26fdSRiver Riddle return success(existingIt->second != nullptr); 2956b6eb26fdSRiver Riddle } 2957b6eb26fdSRiver Riddle auto multiIt = cachedMultiConversions.find(t); 2958b6eb26fdSRiver Riddle if (multiIt != cachedMultiConversions.end()) { 2959b6eb26fdSRiver Riddle results.append(multiIt->second.begin(), multiIt->second.end()); 2960b6eb26fdSRiver Riddle return success(); 2961b6eb26fdSRiver Riddle } 2962b6eb26fdSRiver Riddle 2963b6eb26fdSRiver Riddle // Walk the added converters in reverse order to apply the most recently 2964b6eb26fdSRiver Riddle // registered first. 2965b6eb26fdSRiver Riddle size_t currentCount = results.size(); 29669c5982efSAlex Zinenko conversionCallStack.push_back(t); 29679c5982efSAlex Zinenko auto popConversionCallStack = 29689c5982efSAlex Zinenko llvm::make_scope_exit([this]() { conversionCallStack.pop_back(); }); 2969b6eb26fdSRiver Riddle for (ConversionCallbackFn &converter : llvm::reverse(conversions)) { 29700de16fafSRamkumar Ramachandra if (std::optional<LogicalResult> result = 29719c5982efSAlex Zinenko converter(t, results, conversionCallStack)) { 2972b6eb26fdSRiver Riddle if (!succeeded(*result)) { 2973b6eb26fdSRiver Riddle cachedDirectConversions.try_emplace(t, nullptr); 2974b6eb26fdSRiver Riddle return failure(); 2975b6eb26fdSRiver Riddle } 2976b6eb26fdSRiver Riddle auto newTypes = ArrayRef<Type>(results).drop_front(currentCount); 2977b6eb26fdSRiver Riddle if (newTypes.size() == 1) 2978b6eb26fdSRiver Riddle cachedDirectConversions.try_emplace(t, newTypes.front()); 2979b6eb26fdSRiver Riddle else 2980b6eb26fdSRiver Riddle cachedMultiConversions.try_emplace(t, llvm::to_vector<2>(newTypes)); 2981b6eb26fdSRiver Riddle return success(); 2982b6eb26fdSRiver Riddle } 2983b6eb26fdSRiver Riddle } 2984b6eb26fdSRiver Riddle return failure(); 2985b6eb26fdSRiver Riddle } 2986b6eb26fdSRiver Riddle 2987b6eb26fdSRiver Riddle Type TypeConverter::convertType(Type t) { 2988b6eb26fdSRiver Riddle // Use the multi-type result version to convert the type. 2989b6eb26fdSRiver Riddle SmallVector<Type, 1> results; 2990b6eb26fdSRiver Riddle if (failed(convertType(t, results))) 2991b6eb26fdSRiver Riddle return nullptr; 2992b6eb26fdSRiver Riddle 2993b6eb26fdSRiver Riddle // Check to ensure that only one type was produced. 2994b6eb26fdSRiver Riddle return results.size() == 1 ? results.front() : nullptr; 2995b6eb26fdSRiver Riddle } 2996b6eb26fdSRiver Riddle 29973dfa8614SRiver Riddle LogicalResult TypeConverter::convertTypes(TypeRange types, 2998b6eb26fdSRiver Riddle SmallVectorImpl<Type> &results) { 29993dfa8614SRiver Riddle for (Type type : types) 3000b6eb26fdSRiver Riddle if (failed(convertType(type, results))) 3001b6eb26fdSRiver Riddle return failure(); 3002b6eb26fdSRiver Riddle return success(); 3003b6eb26fdSRiver Riddle } 3004b6eb26fdSRiver Riddle 3005b6eb26fdSRiver Riddle bool TypeConverter::isLegal(Type type) { return convertType(type) == type; } 3006b6eb26fdSRiver Riddle bool TypeConverter::isLegal(Operation *op) { 3007b6eb26fdSRiver Riddle return isLegal(op->getOperandTypes()) && isLegal(op->getResultTypes()); 3008b6eb26fdSRiver Riddle } 3009b6eb26fdSRiver Riddle 3010b6eb26fdSRiver Riddle bool TypeConverter::isLegal(Region *region) { 3011b6eb26fdSRiver Riddle return llvm::all_of(*region, [this](Block &block) { 3012b6eb26fdSRiver Riddle return isLegal(block.getArgumentTypes()); 3013b6eb26fdSRiver Riddle }); 3014b6eb26fdSRiver Riddle } 3015b6eb26fdSRiver Riddle 3016b6eb26fdSRiver Riddle bool TypeConverter::isSignatureLegal(FunctionType ty) { 3017b6eb26fdSRiver Riddle return isLegal(llvm::concat<const Type>(ty.getInputs(), ty.getResults())); 3018b6eb26fdSRiver Riddle } 3019b6eb26fdSRiver Riddle 3020b6eb26fdSRiver Riddle LogicalResult TypeConverter::convertSignatureArg(unsigned inputNo, Type type, 3021b6eb26fdSRiver Riddle SignatureConversion &result) { 3022b6eb26fdSRiver Riddle // Try to convert the given input type. 3023b6eb26fdSRiver Riddle SmallVector<Type, 1> convertedTypes; 3024b6eb26fdSRiver Riddle if (failed(convertType(type, convertedTypes))) 3025b6eb26fdSRiver Riddle return failure(); 3026b6eb26fdSRiver Riddle 3027b6eb26fdSRiver Riddle // If this argument is being dropped, there is nothing left to do. 3028b6eb26fdSRiver Riddle if (convertedTypes.empty()) 3029b6eb26fdSRiver Riddle return success(); 3030b6eb26fdSRiver Riddle 3031b6eb26fdSRiver Riddle // Otherwise, add the new inputs. 3032b6eb26fdSRiver Riddle result.addInputs(inputNo, convertedTypes); 3033b6eb26fdSRiver Riddle return success(); 3034b6eb26fdSRiver Riddle } 3035b6eb26fdSRiver Riddle LogicalResult TypeConverter::convertSignatureArgs(TypeRange types, 3036b6eb26fdSRiver Riddle SignatureConversion &result, 3037b6eb26fdSRiver Riddle unsigned origInputOffset) { 3038b6eb26fdSRiver Riddle for (unsigned i = 0, e = types.size(); i != e; ++i) 3039b6eb26fdSRiver Riddle if (failed(convertSignatureArg(origInputOffset + i, types[i], result))) 3040b6eb26fdSRiver Riddle return failure(); 3041b6eb26fdSRiver Riddle return success(); 3042b6eb26fdSRiver Riddle } 3043b6eb26fdSRiver Riddle 3044b6eb26fdSRiver Riddle Value TypeConverter::materializeConversion( 3045b6eb26fdSRiver Riddle MutableArrayRef<MaterializationCallbackFn> materializations, 3046b6eb26fdSRiver Riddle OpBuilder &builder, Location loc, Type resultType, ValueRange inputs) { 3047b6eb26fdSRiver Riddle for (MaterializationCallbackFn &fn : llvm::reverse(materializations)) 30480de16fafSRamkumar Ramachandra if (std::optional<Value> result = fn(builder, resultType, inputs, loc)) 30496d5fc1e3SKazu Hirata return *result; 3050b6eb26fdSRiver Riddle return nullptr; 3051b6eb26fdSRiver Riddle } 3052b6eb26fdSRiver Riddle 3053b6eb26fdSRiver Riddle auto TypeConverter::convertBlockSignature(Block *block) 30540de16fafSRamkumar Ramachandra -> std::optional<SignatureConversion> { 3055b6eb26fdSRiver Riddle SignatureConversion conversion(block->getNumArguments()); 3056b6eb26fdSRiver Riddle if (failed(convertSignatureArgs(block->getArgumentTypes(), conversion))) 30571a36588eSKazu Hirata return std::nullopt; 3058b6eb26fdSRiver Riddle return conversion; 3059b6eb26fdSRiver Riddle } 3060b6eb26fdSRiver Riddle 306101b55f16SRiver Riddle //===----------------------------------------------------------------------===// 3062499abb24SKrzysztof Drewniak // Type attribute conversion 3063499abb24SKrzysztof Drewniak //===----------------------------------------------------------------------===// 3064499abb24SKrzysztof Drewniak TypeConverter::AttributeConversionResult 3065499abb24SKrzysztof Drewniak TypeConverter::AttributeConversionResult::result(Attribute attr) { 3066499abb24SKrzysztof Drewniak return AttributeConversionResult(attr, resultTag); 3067499abb24SKrzysztof Drewniak } 3068499abb24SKrzysztof Drewniak 3069499abb24SKrzysztof Drewniak TypeConverter::AttributeConversionResult 3070499abb24SKrzysztof Drewniak TypeConverter::AttributeConversionResult::na() { 3071499abb24SKrzysztof Drewniak return AttributeConversionResult(nullptr, naTag); 3072499abb24SKrzysztof Drewniak } 3073499abb24SKrzysztof Drewniak 3074499abb24SKrzysztof Drewniak TypeConverter::AttributeConversionResult 3075499abb24SKrzysztof Drewniak TypeConverter::AttributeConversionResult::abort() { 3076499abb24SKrzysztof Drewniak return AttributeConversionResult(nullptr, abortTag); 3077499abb24SKrzysztof Drewniak } 3078499abb24SKrzysztof Drewniak 3079499abb24SKrzysztof Drewniak bool TypeConverter::AttributeConversionResult::hasResult() const { 3080499abb24SKrzysztof Drewniak return impl.getInt() == resultTag; 3081499abb24SKrzysztof Drewniak } 3082499abb24SKrzysztof Drewniak 3083499abb24SKrzysztof Drewniak bool TypeConverter::AttributeConversionResult::isNa() const { 3084499abb24SKrzysztof Drewniak return impl.getInt() == naTag; 3085499abb24SKrzysztof Drewniak } 3086499abb24SKrzysztof Drewniak 3087499abb24SKrzysztof Drewniak bool TypeConverter::AttributeConversionResult::isAbort() const { 3088499abb24SKrzysztof Drewniak return impl.getInt() == abortTag; 3089499abb24SKrzysztof Drewniak } 3090499abb24SKrzysztof Drewniak 3091499abb24SKrzysztof Drewniak Attribute TypeConverter::AttributeConversionResult::getResult() const { 3092499abb24SKrzysztof Drewniak assert(hasResult() && "Cannot get result from N/A or abort"); 3093499abb24SKrzysztof Drewniak return impl.getPointer(); 3094499abb24SKrzysztof Drewniak } 3095499abb24SKrzysztof Drewniak 309605423905SKazu Hirata std::optional<Attribute> TypeConverter::convertTypeAttribute(Type type, 3097499abb24SKrzysztof Drewniak Attribute attr) { 3098499abb24SKrzysztof Drewniak for (TypeAttributeConversionCallbackFn &fn : 3099499abb24SKrzysztof Drewniak llvm::reverse(typeAttributeConversions)) { 3100499abb24SKrzysztof Drewniak AttributeConversionResult res = fn(type, attr); 3101499abb24SKrzysztof Drewniak if (res.hasResult()) 3102499abb24SKrzysztof Drewniak return res.getResult(); 3103499abb24SKrzysztof Drewniak if (res.isAbort()) 3104499abb24SKrzysztof Drewniak return std::nullopt; 3105499abb24SKrzysztof Drewniak } 3106499abb24SKrzysztof Drewniak return std::nullopt; 3107499abb24SKrzysztof Drewniak } 3108499abb24SKrzysztof Drewniak 3109499abb24SKrzysztof Drewniak //===----------------------------------------------------------------------===// 31107ceffae1SRiver Riddle // FunctionOpInterfaceSignatureConversion 311101b55f16SRiver Riddle //===----------------------------------------------------------------------===// 311201b55f16SRiver Riddle 3113ed4749f9SIvan Butygin static LogicalResult convertFuncOpTypes(FunctionOpInterface funcOp, 3114ed4749f9SIvan Butygin TypeConverter &typeConverter, 3115ed4749f9SIvan Butygin ConversionPatternRewriter &rewriter) { 3116ed4749f9SIvan Butygin FunctionType type = funcOp.getFunctionType().cast<FunctionType>(); 3117ed4749f9SIvan Butygin 3118ed4749f9SIvan Butygin // Convert the original function types. 3119ed4749f9SIvan Butygin TypeConverter::SignatureConversion result(type.getNumInputs()); 3120ed4749f9SIvan Butygin SmallVector<Type, 1> newResults; 3121ed4749f9SIvan Butygin if (failed(typeConverter.convertSignatureArgs(type.getInputs(), result)) || 3122ed4749f9SIvan Butygin failed(typeConverter.convertTypes(type.getResults(), newResults)) || 3123ed4749f9SIvan Butygin failed(rewriter.convertRegionTypes(&funcOp.getFunctionBody(), 3124ed4749f9SIvan Butygin typeConverter, &result))) 3125ed4749f9SIvan Butygin return failure(); 3126ed4749f9SIvan Butygin 3127ed4749f9SIvan Butygin // Update the function signature in-place. 3128ed4749f9SIvan Butygin auto newType = FunctionType::get(rewriter.getContext(), 3129ed4749f9SIvan Butygin result.getConvertedTypes(), newResults); 3130ed4749f9SIvan Butygin 3131ed4749f9SIvan Butygin rewriter.updateRootInPlace(funcOp, [&] { funcOp.setType(newType); }); 3132ed4749f9SIvan Butygin 3133ed4749f9SIvan Butygin return success(); 3134ed4749f9SIvan Butygin } 3135ed4749f9SIvan Butygin 3136b6eb26fdSRiver Riddle /// Create a default conversion pattern that rewrites the type signature of a 31377ceffae1SRiver Riddle /// FunctionOpInterface op. This only supports ops which use FunctionType to 31387ceffae1SRiver Riddle /// represent their type. 3139b6eb26fdSRiver Riddle namespace { 31407ceffae1SRiver Riddle struct FunctionOpInterfaceSignatureConversion : public ConversionPattern { 31417ceffae1SRiver Riddle FunctionOpInterfaceSignatureConversion(StringRef functionLikeOpName, 31427ceffae1SRiver Riddle MLIRContext *ctx, 31437ceffae1SRiver Riddle TypeConverter &converter) 314476f3c2f3SRiver Riddle : ConversionPattern(converter, functionLikeOpName, /*benefit=*/1, ctx) {} 3145b6eb26fdSRiver Riddle 3146b6eb26fdSRiver Riddle LogicalResult 3147ed4749f9SIvan Butygin matchAndRewrite(Operation *op, ArrayRef<Value> /*operands*/, 3148b6eb26fdSRiver Riddle ConversionPatternRewriter &rewriter) const override { 31497ceffae1SRiver Riddle FunctionOpInterface funcOp = cast<FunctionOpInterface>(op); 3150ed4749f9SIvan Butygin return convertFuncOpTypes(funcOp, *typeConverter, rewriter); 3151ed4749f9SIvan Butygin } 3152ed4749f9SIvan Butygin }; 3153b6eb26fdSRiver Riddle 3154ed4749f9SIvan Butygin struct AnyFunctionOpInterfaceSignatureConversion 3155ed4749f9SIvan Butygin : public OpInterfaceConversionPattern<FunctionOpInterface> { 3156ed4749f9SIvan Butygin using OpInterfaceConversionPattern::OpInterfaceConversionPattern; 3157b6eb26fdSRiver Riddle 3158ed4749f9SIvan Butygin LogicalResult 3159ed4749f9SIvan Butygin matchAndRewrite(FunctionOpInterface funcOp, ArrayRef<Value> /*operands*/, 3160ed4749f9SIvan Butygin ConversionPatternRewriter &rewriter) const override { 3161ed4749f9SIvan Butygin return convertFuncOpTypes(funcOp, *typeConverter, rewriter); 3162b6eb26fdSRiver Riddle } 3163b6eb26fdSRiver Riddle }; 3164be0a7e9fSMehdi Amini } // namespace 3165b6eb26fdSRiver Riddle 31667ceffae1SRiver Riddle void mlir::populateFunctionOpInterfaceTypeConversionPattern( 3167dc4e913bSChris Lattner StringRef functionLikeOpName, RewritePatternSet &patterns, 31683a506b31SChris Lattner TypeConverter &converter) { 31697ceffae1SRiver Riddle patterns.add<FunctionOpInterfaceSignatureConversion>( 31703a506b31SChris Lattner functionLikeOpName, patterns.getContext(), converter); 31710a7a1ac7Smikeurbach } 31720a7a1ac7Smikeurbach 3173ed4749f9SIvan Butygin void mlir::populateAnyFunctionOpInterfaceTypeConversionPattern( 3174ed4749f9SIvan Butygin RewritePatternSet &patterns, TypeConverter &converter) { 3175ed4749f9SIvan Butygin patterns.add<AnyFunctionOpInterfaceSignatureConversion>( 3176ed4749f9SIvan Butygin converter, patterns.getContext()); 3177ed4749f9SIvan Butygin } 3178ed4749f9SIvan Butygin 3179b6eb26fdSRiver Riddle //===----------------------------------------------------------------------===// 3180b6eb26fdSRiver Riddle // ConversionTarget 3181b6eb26fdSRiver Riddle //===----------------------------------------------------------------------===// 3182b6eb26fdSRiver Riddle 3183b6eb26fdSRiver Riddle void ConversionTarget::setOpAction(OperationName op, 3184b6eb26fdSRiver Riddle LegalizationAction action) { 3185c6828e0cSCaitlyn Cano legalOperations[op].action = action; 3186b6eb26fdSRiver Riddle } 3187b6eb26fdSRiver Riddle 3188b6eb26fdSRiver Riddle void ConversionTarget::setDialectAction(ArrayRef<StringRef> dialectNames, 3189b6eb26fdSRiver Riddle LegalizationAction action) { 3190b6eb26fdSRiver Riddle for (StringRef dialect : dialectNames) 3191b6eb26fdSRiver Riddle legalDialects[dialect] = action; 3192b6eb26fdSRiver Riddle } 3193b6eb26fdSRiver Riddle 3194b6eb26fdSRiver Riddle auto ConversionTarget::getOpAction(OperationName op) const 31950de16fafSRamkumar Ramachandra -> std::optional<LegalizationAction> { 31960de16fafSRamkumar Ramachandra std::optional<LegalizationInfo> info = getOpInfo(op); 31970de16fafSRamkumar Ramachandra return info ? info->action : std::optional<LegalizationAction>(); 3198b6eb26fdSRiver Riddle } 3199b6eb26fdSRiver Riddle 3200b6eb26fdSRiver Riddle auto ConversionTarget::isLegal(Operation *op) const 32010de16fafSRamkumar Ramachandra -> std::optional<LegalOpDetails> { 32020de16fafSRamkumar Ramachandra std::optional<LegalizationInfo> info = getOpInfo(op->getName()); 3203b6eb26fdSRiver Riddle if (!info) 32041a36588eSKazu Hirata return std::nullopt; 3205b6eb26fdSRiver Riddle 3206b6eb26fdSRiver Riddle // Returns true if this operation instance is known to be legal. 3207b6eb26fdSRiver Riddle auto isOpLegal = [&] { 32081c9c2c91SBenjamin Kramer // Handle dynamic legality either with the provided legality function. 3209c6828e0cSCaitlyn Cano if (info->action == LegalizationAction::Dynamic) { 32100de16fafSRamkumar Ramachandra std::optional<bool> result = info->legalityFn(op); 3211c6828e0cSCaitlyn Cano if (result) 3212c6828e0cSCaitlyn Cano return *result; 3213c6828e0cSCaitlyn Cano } 3214b6eb26fdSRiver Riddle 3215b6eb26fdSRiver Riddle // Otherwise, the operation is only legal if it was marked 'Legal'. 3216b6eb26fdSRiver Riddle return info->action == LegalizationAction::Legal; 3217b6eb26fdSRiver Riddle }; 3218b6eb26fdSRiver Riddle if (!isOpLegal()) 32191a36588eSKazu Hirata return std::nullopt; 3220b6eb26fdSRiver Riddle 3221b6eb26fdSRiver Riddle // This operation is legal, compute any additional legality information. 3222b6eb26fdSRiver Riddle LegalOpDetails legalityDetails; 3223b6eb26fdSRiver Riddle if (info->isRecursivelyLegal) { 3224b6eb26fdSRiver Riddle auto legalityFnIt = opRecursiveLegalityFns.find(op->getName()); 3225c6828e0cSCaitlyn Cano if (legalityFnIt != opRecursiveLegalityFns.end()) { 3226c6828e0cSCaitlyn Cano legalityDetails.isRecursivelyLegal = 322730c67587SKazu Hirata legalityFnIt->second(op).value_or(true); 3228c6828e0cSCaitlyn Cano } else { 3229b6eb26fdSRiver Riddle legalityDetails.isRecursivelyLegal = true; 3230b6eb26fdSRiver Riddle } 3231c6828e0cSCaitlyn Cano } 3232b6eb26fdSRiver Riddle return legalityDetails; 3233b6eb26fdSRiver Riddle } 3234b6eb26fdSRiver Riddle 32352a3878eaSButygin bool ConversionTarget::isIllegal(Operation *op) const { 32360de16fafSRamkumar Ramachandra std::optional<LegalizationInfo> info = getOpInfo(op->getName()); 32372a3878eaSButygin if (!info) 32382a3878eaSButygin return false; 32392a3878eaSButygin 32402a3878eaSButygin if (info->action == LegalizationAction::Dynamic) { 32410de16fafSRamkumar Ramachandra std::optional<bool> result = info->legalityFn(op); 32422a3878eaSButygin if (!result) 32432a3878eaSButygin return false; 32442a3878eaSButygin 32452a3878eaSButygin return !(*result); 32462a3878eaSButygin } 32472a3878eaSButygin 32482a3878eaSButygin return info->action == LegalizationAction::Illegal; 32492a3878eaSButygin } 32502a3878eaSButygin 3251c6828e0cSCaitlyn Cano static ConversionTarget::DynamicLegalityCallbackFn composeLegalityCallbacks( 3252c6828e0cSCaitlyn Cano ConversionTarget::DynamicLegalityCallbackFn oldCallback, 3253c6828e0cSCaitlyn Cano ConversionTarget::DynamicLegalityCallbackFn newCallback) { 3254c6828e0cSCaitlyn Cano if (!oldCallback) 3255c6828e0cSCaitlyn Cano return newCallback; 3256c6828e0cSCaitlyn Cano 3257c6828e0cSCaitlyn Cano auto chain = [oldCl = std::move(oldCallback), newCl = std::move(newCallback)]( 32580de16fafSRamkumar Ramachandra Operation *op) -> std::optional<bool> { 32590de16fafSRamkumar Ramachandra if (std::optional<bool> result = newCl(op)) 3260c6828e0cSCaitlyn Cano return *result; 3261c6828e0cSCaitlyn Cano 3262c6828e0cSCaitlyn Cano return oldCl(op); 3263c6828e0cSCaitlyn Cano }; 3264c6828e0cSCaitlyn Cano return chain; 3265c6828e0cSCaitlyn Cano } 3266c6828e0cSCaitlyn Cano 3267b6eb26fdSRiver Riddle void ConversionTarget::setLegalityCallback( 3268b6eb26fdSRiver Riddle OperationName name, const DynamicLegalityCallbackFn &callback) { 3269b6eb26fdSRiver Riddle assert(callback && "expected valid legality callback"); 3270b6eb26fdSRiver Riddle auto infoIt = legalOperations.find(name); 3271b6eb26fdSRiver Riddle assert(infoIt != legalOperations.end() && 3272b6eb26fdSRiver Riddle infoIt->second.action == LegalizationAction::Dynamic && 3273b6eb26fdSRiver Riddle "expected operation to already be marked as dynamically legal"); 3274c6828e0cSCaitlyn Cano infoIt->second.legalityFn = 3275c6828e0cSCaitlyn Cano composeLegalityCallbacks(std::move(infoIt->second.legalityFn), callback); 3276b6eb26fdSRiver Riddle } 3277b6eb26fdSRiver Riddle 3278b6eb26fdSRiver Riddle void ConversionTarget::markOpRecursivelyLegal( 3279b6eb26fdSRiver Riddle OperationName name, const DynamicLegalityCallbackFn &callback) { 3280b6eb26fdSRiver Riddle auto infoIt = legalOperations.find(name); 3281b6eb26fdSRiver Riddle assert(infoIt != legalOperations.end() && 3282b6eb26fdSRiver Riddle infoIt->second.action != LegalizationAction::Illegal && 3283b6eb26fdSRiver Riddle "expected operation to already be marked as legal"); 3284b6eb26fdSRiver Riddle infoIt->second.isRecursivelyLegal = true; 3285b6eb26fdSRiver Riddle if (callback) 3286c6828e0cSCaitlyn Cano opRecursiveLegalityFns[name] = composeLegalityCallbacks( 3287c6828e0cSCaitlyn Cano std::move(opRecursiveLegalityFns[name]), callback); 3288b6eb26fdSRiver Riddle else 3289b6eb26fdSRiver Riddle opRecursiveLegalityFns.erase(name); 3290b6eb26fdSRiver Riddle } 3291b6eb26fdSRiver Riddle 3292b6eb26fdSRiver Riddle void ConversionTarget::setLegalityCallback( 3293b6eb26fdSRiver Riddle ArrayRef<StringRef> dialects, const DynamicLegalityCallbackFn &callback) { 3294b6eb26fdSRiver Riddle assert(callback && "expected valid legality callback"); 3295b6eb26fdSRiver Riddle for (StringRef dialect : dialects) 3296c6828e0cSCaitlyn Cano dialectLegalityFns[dialect] = composeLegalityCallbacks( 3297c6828e0cSCaitlyn Cano std::move(dialectLegalityFns[dialect]), callback); 3298b6eb26fdSRiver Riddle } 3299b6eb26fdSRiver Riddle 3300b7a46498SButygin void ConversionTarget::setLegalityCallback( 3301b7a46498SButygin const DynamicLegalityCallbackFn &callback) { 3302b7a46498SButygin assert(callback && "expected valid legality callback"); 3303c6828e0cSCaitlyn Cano unknownLegalityFn = composeLegalityCallbacks(unknownLegalityFn, callback); 3304b7a46498SButygin } 3305b7a46498SButygin 3306b6eb26fdSRiver Riddle auto ConversionTarget::getOpInfo(OperationName op) const 33070de16fafSRamkumar Ramachandra -> std::optional<LegalizationInfo> { 3308b6eb26fdSRiver Riddle // Check for info for this specific operation. 3309b6eb26fdSRiver Riddle auto it = legalOperations.find(op); 3310b6eb26fdSRiver Riddle if (it != legalOperations.end()) 3311b6eb26fdSRiver Riddle return it->second; 3312b6eb26fdSRiver Riddle // Check for info for the parent dialect. 3313e6260ad0SRiver Riddle auto dialectIt = legalDialects.find(op.getDialectNamespace()); 3314b6eb26fdSRiver Riddle if (dialectIt != legalDialects.end()) { 3315b7a46498SButygin DynamicLegalityCallbackFn callback; 3316e6260ad0SRiver Riddle auto dialectFn = dialectLegalityFns.find(op.getDialectNamespace()); 3317b6eb26fdSRiver Riddle if (dialectFn != dialectLegalityFns.end()) 3318b6eb26fdSRiver Riddle callback = dialectFn->second; 3319b6eb26fdSRiver Riddle return LegalizationInfo{dialectIt->second, /*isRecursivelyLegal=*/false, 3320b6eb26fdSRiver Riddle callback}; 3321b6eb26fdSRiver Riddle } 3322b6eb26fdSRiver Riddle // Otherwise, check if we mark unknown operations as dynamic. 3323b7a46498SButygin if (unknownLegalityFn) 3324b6eb26fdSRiver Riddle return LegalizationInfo{LegalizationAction::Dynamic, 3325b6eb26fdSRiver Riddle /*isRecursivelyLegal=*/false, unknownLegalityFn}; 33261a36588eSKazu Hirata return std::nullopt; 3327b6eb26fdSRiver Riddle } 3328b6eb26fdSRiver Riddle 3329b6eb26fdSRiver Riddle //===----------------------------------------------------------------------===// 33308c66344eSRiver Riddle // PDL Configuration 33318c66344eSRiver Riddle //===----------------------------------------------------------------------===// 33328c66344eSRiver Riddle 33338c66344eSRiver Riddle void PDLConversionConfig::notifyRewriteBegin(PatternRewriter &rewriter) { 33348c66344eSRiver Riddle auto &rewriterImpl = 33358c66344eSRiver Riddle static_cast<ConversionPatternRewriter &>(rewriter).getImpl(); 33368c66344eSRiver Riddle rewriterImpl.currentTypeConverter = getTypeConverter(); 33378c66344eSRiver Riddle } 33388c66344eSRiver Riddle 33398c66344eSRiver Riddle void PDLConversionConfig::notifyRewriteEnd(PatternRewriter &rewriter) { 33408c66344eSRiver Riddle auto &rewriterImpl = 33418c66344eSRiver Riddle static_cast<ConversionPatternRewriter &>(rewriter).getImpl(); 33428c66344eSRiver Riddle rewriterImpl.currentTypeConverter = nullptr; 33438c66344eSRiver Riddle } 33448c66344eSRiver Riddle 33458c66344eSRiver Riddle /// Remap the given value using the rewriter and the type converter in the 33468c66344eSRiver Riddle /// provided config. 33478c66344eSRiver Riddle static FailureOr<SmallVector<Value>> 33488c66344eSRiver Riddle pdllConvertValues(ConversionPatternRewriter &rewriter, ValueRange values) { 33498c66344eSRiver Riddle SmallVector<Value> mappedValues; 33508c66344eSRiver Riddle if (failed(rewriter.getRemappedValues(values, mappedValues))) 33518c66344eSRiver Riddle return failure(); 33528c66344eSRiver Riddle return std::move(mappedValues); 33538c66344eSRiver Riddle } 33548c66344eSRiver Riddle 33558c66344eSRiver Riddle void mlir::registerConversionPDLFunctions(RewritePatternSet &patterns) { 33568c66344eSRiver Riddle patterns.getPDLPatterns().registerRewriteFunction( 33578c66344eSRiver Riddle "convertValue", 33588c66344eSRiver Riddle [](PatternRewriter &rewriter, Value value) -> FailureOr<Value> { 33598c66344eSRiver Riddle auto results = pdllConvertValues( 33608c66344eSRiver Riddle static_cast<ConversionPatternRewriter &>(rewriter), value); 33618c66344eSRiver Riddle if (failed(results)) 33628c66344eSRiver Riddle return failure(); 33638c66344eSRiver Riddle return results->front(); 33648c66344eSRiver Riddle }); 33658c66344eSRiver Riddle patterns.getPDLPatterns().registerRewriteFunction( 33668c66344eSRiver Riddle "convertValues", [](PatternRewriter &rewriter, ValueRange values) { 33678c66344eSRiver Riddle return pdllConvertValues( 33688c66344eSRiver Riddle static_cast<ConversionPatternRewriter &>(rewriter), values); 33698c66344eSRiver Riddle }); 33708c66344eSRiver Riddle patterns.getPDLPatterns().registerRewriteFunction( 33718c66344eSRiver Riddle "convertType", 33728c66344eSRiver Riddle [](PatternRewriter &rewriter, Type type) -> FailureOr<Type> { 33738c66344eSRiver Riddle auto &rewriterImpl = 33748c66344eSRiver Riddle static_cast<ConversionPatternRewriter &>(rewriter).getImpl(); 33758c66344eSRiver Riddle if (TypeConverter *converter = rewriterImpl.currentTypeConverter) { 33768c66344eSRiver Riddle if (Type newType = converter->convertType(type)) 33778c66344eSRiver Riddle return newType; 33788c66344eSRiver Riddle return failure(); 33798c66344eSRiver Riddle } 33808c66344eSRiver Riddle return type; 33818c66344eSRiver Riddle }); 33828c66344eSRiver Riddle patterns.getPDLPatterns().registerRewriteFunction( 33838c66344eSRiver Riddle "convertTypes", 33848c66344eSRiver Riddle [](PatternRewriter &rewriter, 33858c66344eSRiver Riddle TypeRange types) -> FailureOr<SmallVector<Type>> { 33868c66344eSRiver Riddle auto &rewriterImpl = 33878c66344eSRiver Riddle static_cast<ConversionPatternRewriter &>(rewriter).getImpl(); 33888c66344eSRiver Riddle TypeConverter *converter = rewriterImpl.currentTypeConverter; 33898c66344eSRiver Riddle if (!converter) 33908c66344eSRiver Riddle return SmallVector<Type>(types); 33918c66344eSRiver Riddle 33928c66344eSRiver Riddle SmallVector<Type> remappedTypes; 33938c66344eSRiver Riddle if (failed(converter->convertTypes(types, remappedTypes))) 33948c66344eSRiver Riddle return failure(); 33958c66344eSRiver Riddle return std::move(remappedTypes); 33968c66344eSRiver Riddle }); 33978c66344eSRiver Riddle } 33988c66344eSRiver Riddle 33998c66344eSRiver Riddle //===----------------------------------------------------------------------===// 3400b6eb26fdSRiver Riddle // Op Conversion Entry Points 3401b6eb26fdSRiver Riddle //===----------------------------------------------------------------------===// 3402b6eb26fdSRiver Riddle 340301b55f16SRiver Riddle //===----------------------------------------------------------------------===// 340401b55f16SRiver Riddle // Partial Conversion 340501b55f16SRiver Riddle 3406b6eb26fdSRiver Riddle LogicalResult 3407b6eb26fdSRiver Riddle mlir::applyPartialConversion(ArrayRef<Operation *> ops, 3408b6eb26fdSRiver Riddle ConversionTarget &target, 340979d7f618SChris Lattner const FrozenRewritePatternSet &patterns, 3410b6eb26fdSRiver Riddle DenseSet<Operation *> *unconvertedOps) { 3411b6eb26fdSRiver Riddle OperationConverter opConverter(target, patterns, OpConversionMode::Partial, 3412b6eb26fdSRiver Riddle unconvertedOps); 3413b6eb26fdSRiver Riddle return opConverter.convertOperations(ops); 3414b6eb26fdSRiver Riddle } 3415b6eb26fdSRiver Riddle LogicalResult 3416b6eb26fdSRiver Riddle mlir::applyPartialConversion(Operation *op, ConversionTarget &target, 341779d7f618SChris Lattner const FrozenRewritePatternSet &patterns, 3418b6eb26fdSRiver Riddle DenseSet<Operation *> *unconvertedOps) { 3419984b800aSserge-sans-paille return applyPartialConversion(llvm::ArrayRef(op), target, patterns, 3420b6eb26fdSRiver Riddle unconvertedOps); 3421b6eb26fdSRiver Riddle } 3422b6eb26fdSRiver Riddle 342301b55f16SRiver Riddle //===----------------------------------------------------------------------===// 342401b55f16SRiver Riddle // Full Conversion 342501b55f16SRiver Riddle 3426b6eb26fdSRiver Riddle LogicalResult 3427b6eb26fdSRiver Riddle mlir::applyFullConversion(ArrayRef<Operation *> ops, ConversionTarget &target, 342879d7f618SChris Lattner const FrozenRewritePatternSet &patterns) { 3429b6eb26fdSRiver Riddle OperationConverter opConverter(target, patterns, OpConversionMode::Full); 3430b6eb26fdSRiver Riddle return opConverter.convertOperations(ops); 3431b6eb26fdSRiver Riddle } 3432b6eb26fdSRiver Riddle LogicalResult 3433b6eb26fdSRiver Riddle mlir::applyFullConversion(Operation *op, ConversionTarget &target, 343479d7f618SChris Lattner const FrozenRewritePatternSet &patterns) { 3435984b800aSserge-sans-paille return applyFullConversion(llvm::ArrayRef(op), target, patterns); 3436b6eb26fdSRiver Riddle } 3437b6eb26fdSRiver Riddle 343801b55f16SRiver Riddle //===----------------------------------------------------------------------===// 343901b55f16SRiver Riddle // Analysis Conversion 344001b55f16SRiver Riddle 3441b6eb26fdSRiver Riddle LogicalResult 3442b6eb26fdSRiver Riddle mlir::applyAnalysisConversion(ArrayRef<Operation *> ops, 3443b6eb26fdSRiver Riddle ConversionTarget &target, 344479d7f618SChris Lattner const FrozenRewritePatternSet &patterns, 3445b8c6b152SChia-hung Duan DenseSet<Operation *> &convertedOps, 3446b8c6b152SChia-hung Duan function_ref<void(Diagnostic &)> notifyCallback) { 3447b6eb26fdSRiver Riddle OperationConverter opConverter(target, patterns, OpConversionMode::Analysis, 3448b6eb26fdSRiver Riddle &convertedOps); 3449b8c6b152SChia-hung Duan return opConverter.convertOperations(ops, notifyCallback); 3450b6eb26fdSRiver Riddle } 3451b6eb26fdSRiver Riddle LogicalResult 3452b6eb26fdSRiver Riddle mlir::applyAnalysisConversion(Operation *op, ConversionTarget &target, 345379d7f618SChris Lattner const FrozenRewritePatternSet &patterns, 3454b8c6b152SChia-hung Duan DenseSet<Operation *> &convertedOps, 3455b8c6b152SChia-hung Duan function_ref<void(Diagnostic &)> notifyCallback) { 3456984b800aSserge-sans-paille return applyAnalysisConversion(llvm::ArrayRef(op), target, patterns, 3457b8c6b152SChia-hung Duan convertedOps, notifyCallback); 3458b6eb26fdSRiver Riddle } 3459