15c0c51a9SNicolas Vasilache //===- VectorToLLVM.cpp - Conversion from Vector to the LLVM dialect ------===// 25c0c51a9SNicolas Vasilache // 330857107SMehdi Amini // Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions. 456222a06SMehdi Amini // See https://llvm.org/LICENSE.txt for license information. 556222a06SMehdi Amini // SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception 65c0c51a9SNicolas Vasilache // 756222a06SMehdi Amini //===----------------------------------------------------------------------===// 85c0c51a9SNicolas Vasilache 965678d93SNicolas Vasilache #include "mlir/Conversion/VectorToLLVM/ConvertVectorToLLVM.h" 105c0c51a9SNicolas Vasilache #include "mlir/Conversion/StandardToLLVM/ConvertStandardToLLVM.h" 115c0c51a9SNicolas Vasilache #include "mlir/Conversion/StandardToLLVM/ConvertStandardToLLVMPass.h" 125c0c51a9SNicolas Vasilache #include "mlir/Dialect/LLVMIR/LLVMDialect.h" 1365678d93SNicolas Vasilache #include "mlir/Dialect/StandardOps/Ops.h" 145c0c51a9SNicolas Vasilache #include "mlir/Dialect/VectorOps/VectorOps.h" 155c0c51a9SNicolas Vasilache #include "mlir/IR/Attributes.h" 165c0c51a9SNicolas Vasilache #include "mlir/IR/Builders.h" 175c0c51a9SNicolas Vasilache #include "mlir/IR/MLIRContext.h" 185c0c51a9SNicolas Vasilache #include "mlir/IR/Module.h" 195c0c51a9SNicolas Vasilache #include "mlir/IR/Operation.h" 205c0c51a9SNicolas Vasilache #include "mlir/IR/PatternMatch.h" 215c0c51a9SNicolas Vasilache #include "mlir/IR/StandardTypes.h" 225c0c51a9SNicolas Vasilache #include "mlir/IR/Types.h" 235c0c51a9SNicolas Vasilache #include "mlir/Pass/Pass.h" 245c0c51a9SNicolas Vasilache #include "mlir/Pass/PassManager.h" 255c0c51a9SNicolas Vasilache #include "mlir/Transforms/DialectConversion.h" 265c0c51a9SNicolas Vasilache #include "mlir/Transforms/Passes.h" 275c0c51a9SNicolas Vasilache 285c0c51a9SNicolas Vasilache #include "llvm/IR/DerivedTypes.h" 295c0c51a9SNicolas Vasilache #include "llvm/IR/Module.h" 305c0c51a9SNicolas Vasilache #include "llvm/IR/Type.h" 315c0c51a9SNicolas Vasilache #include "llvm/Support/Allocator.h" 325c0c51a9SNicolas Vasilache #include "llvm/Support/ErrorHandling.h" 335c0c51a9SNicolas Vasilache 345c0c51a9SNicolas Vasilache using namespace mlir; 3565678d93SNicolas Vasilache using namespace mlir::vector; 365c0c51a9SNicolas Vasilache 375c0c51a9SNicolas Vasilache template <typename T> 385c0c51a9SNicolas Vasilache static LLVM::LLVMType getPtrToElementType(T containerType, 395c0c51a9SNicolas Vasilache LLVMTypeConverter &lowering) { 405c0c51a9SNicolas Vasilache return lowering.convertType(containerType.getElementType()) 415c0c51a9SNicolas Vasilache .template cast<LLVM::LLVMType>() 425c0c51a9SNicolas Vasilache .getPointerTo(); 435c0c51a9SNicolas Vasilache } 445c0c51a9SNicolas Vasilache 459826fe5cSAart Bik // Helper to reduce vector type by one rank at front. 469826fe5cSAart Bik static VectorType reducedVectorTypeFront(VectorType tp) { 479826fe5cSAart Bik assert((tp.getRank() > 1) && "unlowerable vector type"); 489826fe5cSAart Bik return VectorType::get(tp.getShape().drop_front(), tp.getElementType()); 499826fe5cSAart Bik } 509826fe5cSAart Bik 519826fe5cSAart Bik // Helper to reduce vector type by *all* but one rank at back. 529826fe5cSAart Bik static VectorType reducedVectorTypeBack(VectorType tp) { 539826fe5cSAart Bik assert((tp.getRank() > 1) && "unlowerable vector type"); 549826fe5cSAart Bik return VectorType::get(tp.getShape().take_back(), tp.getElementType()); 559826fe5cSAart Bik } 569826fe5cSAart Bik 571c81adf3SAart Bik // Helper that picks the proper sequence for inserting. 58e62a6956SRiver Riddle static Value insertOne(ConversionPatternRewriter &rewriter, 59e62a6956SRiver Riddle LLVMTypeConverter &lowering, Location loc, Value val1, 60e62a6956SRiver Riddle Value val2, Type llvmType, int64_t rank, int64_t pos) { 611c81adf3SAart Bik if (rank == 1) { 621c81adf3SAart Bik auto idxType = rewriter.getIndexType(); 631c81adf3SAart Bik auto constant = rewriter.create<LLVM::ConstantOp>( 641c81adf3SAart Bik loc, lowering.convertType(idxType), 651c81adf3SAart Bik rewriter.getIntegerAttr(idxType, pos)); 661c81adf3SAart Bik return rewriter.create<LLVM::InsertElementOp>(loc, llvmType, val1, val2, 671c81adf3SAart Bik constant); 681c81adf3SAart Bik } 691c81adf3SAart Bik return rewriter.create<LLVM::InsertValueOp>(loc, llvmType, val1, val2, 701c81adf3SAart Bik rewriter.getI64ArrayAttr(pos)); 711c81adf3SAart Bik } 721c81adf3SAart Bik 732d515e49SNicolas Vasilache // Helper that picks the proper sequence for inserting. 742d515e49SNicolas Vasilache static Value insertOne(PatternRewriter &rewriter, Location loc, Value from, 752d515e49SNicolas Vasilache Value into, int64_t offset) { 762d515e49SNicolas Vasilache auto vectorType = into.getType().cast<VectorType>(); 772d515e49SNicolas Vasilache if (vectorType.getRank() > 1) 782d515e49SNicolas Vasilache return rewriter.create<InsertOp>(loc, from, into, offset); 792d515e49SNicolas Vasilache return rewriter.create<vector::InsertElementOp>( 802d515e49SNicolas Vasilache loc, vectorType, from, into, 812d515e49SNicolas Vasilache rewriter.create<ConstantIndexOp>(loc, offset)); 822d515e49SNicolas Vasilache } 832d515e49SNicolas Vasilache 841c81adf3SAart Bik // Helper that picks the proper sequence for extracting. 85e62a6956SRiver Riddle static Value extractOne(ConversionPatternRewriter &rewriter, 86e62a6956SRiver Riddle LLVMTypeConverter &lowering, Location loc, Value val, 87e62a6956SRiver Riddle Type llvmType, int64_t rank, int64_t pos) { 881c81adf3SAart Bik if (rank == 1) { 891c81adf3SAart Bik auto idxType = rewriter.getIndexType(); 901c81adf3SAart Bik auto constant = rewriter.create<LLVM::ConstantOp>( 911c81adf3SAart Bik loc, lowering.convertType(idxType), 921c81adf3SAart Bik rewriter.getIntegerAttr(idxType, pos)); 931c81adf3SAart Bik return rewriter.create<LLVM::ExtractElementOp>(loc, llvmType, val, 941c81adf3SAart Bik constant); 951c81adf3SAart Bik } 961c81adf3SAart Bik return rewriter.create<LLVM::ExtractValueOp>(loc, llvmType, val, 971c81adf3SAart Bik rewriter.getI64ArrayAttr(pos)); 981c81adf3SAart Bik } 991c81adf3SAart Bik 1002d515e49SNicolas Vasilache // Helper that picks the proper sequence for extracting. 1012d515e49SNicolas Vasilache static Value extractOne(PatternRewriter &rewriter, Location loc, Value vector, 1022d515e49SNicolas Vasilache int64_t offset) { 1032d515e49SNicolas Vasilache auto vectorType = vector.getType().cast<VectorType>(); 1042d515e49SNicolas Vasilache if (vectorType.getRank() > 1) 1052d515e49SNicolas Vasilache return rewriter.create<ExtractOp>(loc, vector, offset); 1062d515e49SNicolas Vasilache return rewriter.create<vector::ExtractElementOp>( 1072d515e49SNicolas Vasilache loc, vectorType.getElementType(), vector, 1082d515e49SNicolas Vasilache rewriter.create<ConstantIndexOp>(loc, offset)); 1092d515e49SNicolas Vasilache } 1102d515e49SNicolas Vasilache 1112d515e49SNicolas Vasilache // Helper that returns a subset of `arrayAttr` as a vector of int64_t. 1122d515e49SNicolas Vasilache // TODO(rriddle): Better support for attribute subtype forwarding + slicing. 1132d515e49SNicolas Vasilache static SmallVector<int64_t, 4> getI64SubArray(ArrayAttr arrayAttr, 1142d515e49SNicolas Vasilache unsigned dropFront = 0, 1152d515e49SNicolas Vasilache unsigned dropBack = 0) { 1162d515e49SNicolas Vasilache assert(arrayAttr.size() > dropFront + dropBack && "Out of bounds"); 1172d515e49SNicolas Vasilache auto range = arrayAttr.getAsRange<IntegerAttr>(); 1182d515e49SNicolas Vasilache SmallVector<int64_t, 4> res; 1192d515e49SNicolas Vasilache res.reserve(arrayAttr.size() - dropFront - dropBack); 1202d515e49SNicolas Vasilache for (auto it = range.begin() + dropFront, eit = range.end() - dropBack; 1212d515e49SNicolas Vasilache it != eit; ++it) 1222d515e49SNicolas Vasilache res.push_back((*it).getValue().getSExtValue()); 1232d515e49SNicolas Vasilache return res; 1242d515e49SNicolas Vasilache } 1252d515e49SNicolas Vasilache 12690c01357SBenjamin Kramer namespace { 127b36aaeafSAart Bik class VectorBroadcastOpConversion : public LLVMOpLowering { 128b36aaeafSAart Bik public: 129b36aaeafSAart Bik explicit VectorBroadcastOpConversion(MLIRContext *context, 130b36aaeafSAart Bik LLVMTypeConverter &typeConverter) 131b36aaeafSAart Bik : LLVMOpLowering(vector::BroadcastOp::getOperationName(), context, 132b36aaeafSAart Bik typeConverter) {} 133b36aaeafSAart Bik 134b36aaeafSAart Bik PatternMatchResult 135e62a6956SRiver Riddle matchAndRewrite(Operation *op, ArrayRef<Value> operands, 136b36aaeafSAart Bik ConversionPatternRewriter &rewriter) const override { 137b36aaeafSAart Bik auto broadcastOp = cast<vector::BroadcastOp>(op); 138b36aaeafSAart Bik VectorType dstVectorType = broadcastOp.getVectorType(); 139b36aaeafSAart Bik if (lowering.convertType(dstVectorType) == nullptr) 140b36aaeafSAart Bik return matchFailure(); 141b36aaeafSAart Bik // Rewrite when the full vector type can be lowered (which 142b36aaeafSAart Bik // implies all 'reduced' types can be lowered too). 1431c81adf3SAart Bik auto adaptor = vector::BroadcastOpOperandAdaptor(operands); 144b36aaeafSAart Bik VectorType srcVectorType = 145b36aaeafSAart Bik broadcastOp.getSourceType().dyn_cast<VectorType>(); 146b36aaeafSAart Bik rewriter.replaceOp( 1471c81adf3SAart Bik op, expandRanks(adaptor.source(), // source value to be expanded 148b36aaeafSAart Bik op->getLoc(), // location of original broadcast 149b36aaeafSAart Bik srcVectorType, dstVectorType, rewriter)); 150b36aaeafSAart Bik return matchSuccess(); 151b36aaeafSAart Bik } 152b36aaeafSAart Bik 153b36aaeafSAart Bik private: 154b36aaeafSAart Bik // Expands the given source value over all the ranks, as defined 155b36aaeafSAart Bik // by the source and destination type (a null source type denotes 156b36aaeafSAart Bik // expansion from a scalar value into a vector). 157b36aaeafSAart Bik // 158b36aaeafSAart Bik // TODO(ajcbik): consider replacing this one-pattern lowering 159b36aaeafSAart Bik // with a two-pattern lowering using other vector 160b36aaeafSAart Bik // ops once all insert/extract/shuffle operations 161fc817b09SKazuaki Ishizaki // are available with lowering implementation. 162b36aaeafSAart Bik // 163e62a6956SRiver Riddle Value expandRanks(Value value, Location loc, VectorType srcVectorType, 164b36aaeafSAart Bik VectorType dstVectorType, 165b36aaeafSAart Bik ConversionPatternRewriter &rewriter) const { 166b36aaeafSAart Bik assert((dstVectorType != nullptr) && "invalid result type in broadcast"); 167b36aaeafSAart Bik // Determine rank of source and destination. 168b36aaeafSAart Bik int64_t srcRank = srcVectorType ? srcVectorType.getRank() : 0; 169b36aaeafSAart Bik int64_t dstRank = dstVectorType.getRank(); 170b36aaeafSAart Bik int64_t curDim = dstVectorType.getDimSize(0); 171b36aaeafSAart Bik if (srcRank < dstRank) 172b36aaeafSAart Bik // Duplicate this rank. 173b36aaeafSAart Bik return duplicateOneRank(value, loc, srcVectorType, dstVectorType, dstRank, 174b36aaeafSAart Bik curDim, rewriter); 175b36aaeafSAart Bik // If all trailing dimensions are the same, the broadcast consists of 176b36aaeafSAart Bik // simply passing through the source value and we are done. Otherwise, 177b36aaeafSAart Bik // any non-matching dimension forces a stretch along this rank. 178b36aaeafSAart Bik assert((srcVectorType != nullptr) && (srcRank > 0) && 179b36aaeafSAart Bik (srcRank == dstRank) && "invalid rank in broadcast"); 180b36aaeafSAart Bik for (int64_t r = 0; r < dstRank; r++) { 181b36aaeafSAart Bik if (srcVectorType.getDimSize(r) != dstVectorType.getDimSize(r)) { 182b36aaeafSAart Bik return stretchOneRank(value, loc, srcVectorType, dstVectorType, dstRank, 183b36aaeafSAart Bik curDim, rewriter); 184b36aaeafSAart Bik } 185b36aaeafSAart Bik } 186b36aaeafSAart Bik return value; 187b36aaeafSAart Bik } 188b36aaeafSAart Bik 189b36aaeafSAart Bik // Picks the best way to duplicate a single rank. For the 1-D case, a 190b36aaeafSAart Bik // single insert-elt/shuffle is the most efficient expansion. For higher 191b36aaeafSAart Bik // dimensions, however, we need dim x insert-values on a new broadcast 192b36aaeafSAart Bik // with one less leading dimension, which will be lowered "recursively" 193b36aaeafSAart Bik // to matching LLVM IR. 194b36aaeafSAart Bik // For example: 195b36aaeafSAart Bik // v = broadcast s : f32 to vector<4x2xf32> 196b36aaeafSAart Bik // becomes: 197b36aaeafSAart Bik // x = broadcast s : f32 to vector<2xf32> 198b36aaeafSAart Bik // v = [x,x,x,x] 199b36aaeafSAart Bik // becomes: 200b36aaeafSAart Bik // x = [s,s] 201b36aaeafSAart Bik // v = [x,x,x,x] 202e62a6956SRiver Riddle Value duplicateOneRank(Value value, Location loc, VectorType srcVectorType, 203e62a6956SRiver Riddle VectorType dstVectorType, int64_t rank, int64_t dim, 204b36aaeafSAart Bik ConversionPatternRewriter &rewriter) const { 205b36aaeafSAart Bik Type llvmType = lowering.convertType(dstVectorType); 206b36aaeafSAart Bik assert((llvmType != nullptr) && "unlowerable vector type"); 207b36aaeafSAart Bik if (rank == 1) { 208e62a6956SRiver Riddle Value undef = rewriter.create<LLVM::UndefOp>(loc, llvmType); 209e62a6956SRiver Riddle Value expand = 2101c81adf3SAart Bik insertOne(rewriter, lowering, loc, undef, value, llvmType, rank, 0); 211b36aaeafSAart Bik SmallVector<int32_t, 4> zeroValues(dim, 0); 212b36aaeafSAart Bik return rewriter.create<LLVM::ShuffleVectorOp>( 213b36aaeafSAart Bik loc, expand, undef, rewriter.getI32ArrayAttr(zeroValues)); 214b36aaeafSAart Bik } 215e62a6956SRiver Riddle Value expand = expandRanks(value, loc, srcVectorType, 2169826fe5cSAart Bik reducedVectorTypeFront(dstVectorType), rewriter); 217e62a6956SRiver Riddle Value result = rewriter.create<LLVM::UndefOp>(loc, llvmType); 218b36aaeafSAart Bik for (int64_t d = 0; d < dim; ++d) { 2191c81adf3SAart Bik result = 2201c81adf3SAart Bik insertOne(rewriter, lowering, loc, result, expand, llvmType, rank, d); 221b36aaeafSAart Bik } 222b36aaeafSAart Bik return result; 223b36aaeafSAart Bik } 224b36aaeafSAart Bik 225b36aaeafSAart Bik // Picks the best way to stretch a single rank. For the 1-D case, a 226b36aaeafSAart Bik // single insert-elt/shuffle is the most efficient expansion when at 227b36aaeafSAart Bik // a stretch. Otherwise, every dimension needs to be expanded 228b36aaeafSAart Bik // individually and individually inserted in the resulting vector. 229b36aaeafSAart Bik // For example: 230b36aaeafSAart Bik // v = broadcast w : vector<4x1x2xf32> to vector<4x2x2xf32> 231b36aaeafSAart Bik // becomes: 232b36aaeafSAart Bik // a = broadcast w[0] : vector<1x2xf32> to vector<2x2xf32> 233b36aaeafSAart Bik // b = broadcast w[1] : vector<1x2xf32> to vector<2x2xf32> 234b36aaeafSAart Bik // c = broadcast w[2] : vector<1x2xf32> to vector<2x2xf32> 235b36aaeafSAart Bik // d = broadcast w[3] : vector<1x2xf32> to vector<2x2xf32> 236b36aaeafSAart Bik // v = [a,b,c,d] 237b36aaeafSAart Bik // becomes: 238b36aaeafSAart Bik // x = broadcast w[0][0] : vector<2xf32> to vector <2x2xf32> 239b36aaeafSAart Bik // y = broadcast w[1][0] : vector<2xf32> to vector <2x2xf32> 240b36aaeafSAart Bik // a = [x, y] 241b36aaeafSAart Bik // etc. 242e62a6956SRiver Riddle Value stretchOneRank(Value value, Location loc, VectorType srcVectorType, 243e62a6956SRiver Riddle VectorType dstVectorType, int64_t rank, int64_t dim, 244b36aaeafSAart Bik ConversionPatternRewriter &rewriter) const { 245b36aaeafSAart Bik Type llvmType = lowering.convertType(dstVectorType); 246b36aaeafSAart Bik assert((llvmType != nullptr) && "unlowerable vector type"); 247e62a6956SRiver Riddle Value result = rewriter.create<LLVM::UndefOp>(loc, llvmType); 248b36aaeafSAart Bik bool atStretch = dim != srcVectorType.getDimSize(0); 249b36aaeafSAart Bik if (rank == 1) { 2501c81adf3SAart Bik assert(atStretch); 251b36aaeafSAart Bik Type redLlvmType = lowering.convertType(dstVectorType.getElementType()); 252e62a6956SRiver Riddle Value one = 2531c81adf3SAart Bik extractOne(rewriter, lowering, loc, value, redLlvmType, rank, 0); 254e62a6956SRiver Riddle Value expand = 2551c81adf3SAart Bik insertOne(rewriter, lowering, loc, result, one, llvmType, rank, 0); 256b36aaeafSAart Bik SmallVector<int32_t, 4> zeroValues(dim, 0); 257b36aaeafSAart Bik return rewriter.create<LLVM::ShuffleVectorOp>( 258b36aaeafSAart Bik loc, expand, result, rewriter.getI32ArrayAttr(zeroValues)); 259b36aaeafSAart Bik } 2609826fe5cSAart Bik VectorType redSrcType = reducedVectorTypeFront(srcVectorType); 2619826fe5cSAart Bik VectorType redDstType = reducedVectorTypeFront(dstVectorType); 262b36aaeafSAart Bik Type redLlvmType = lowering.convertType(redSrcType); 263b36aaeafSAart Bik for (int64_t d = 0; d < dim; ++d) { 264b36aaeafSAart Bik int64_t pos = atStretch ? 0 : d; 265e62a6956SRiver Riddle Value one = 2661c81adf3SAart Bik extractOne(rewriter, lowering, loc, value, redLlvmType, rank, pos); 267e62a6956SRiver Riddle Value expand = expandRanks(one, loc, redSrcType, redDstType, rewriter); 2681c81adf3SAart Bik result = 2691c81adf3SAart Bik insertOne(rewriter, lowering, loc, result, expand, llvmType, rank, d); 270b36aaeafSAart Bik } 271b36aaeafSAart Bik return result; 272b36aaeafSAart Bik } 2731c81adf3SAart Bik }; 274b36aaeafSAart Bik 2751c81adf3SAart Bik class VectorShuffleOpConversion : public LLVMOpLowering { 2761c81adf3SAart Bik public: 2771c81adf3SAart Bik explicit VectorShuffleOpConversion(MLIRContext *context, 2781c81adf3SAart Bik LLVMTypeConverter &typeConverter) 2791c81adf3SAart Bik : LLVMOpLowering(vector::ShuffleOp::getOperationName(), context, 2801c81adf3SAart Bik typeConverter) {} 2811c81adf3SAart Bik 2821c81adf3SAart Bik PatternMatchResult 283e62a6956SRiver Riddle matchAndRewrite(Operation *op, ArrayRef<Value> operands, 2841c81adf3SAart Bik ConversionPatternRewriter &rewriter) const override { 2851c81adf3SAart Bik auto loc = op->getLoc(); 2861c81adf3SAart Bik auto adaptor = vector::ShuffleOpOperandAdaptor(operands); 2871c81adf3SAart Bik auto shuffleOp = cast<vector::ShuffleOp>(op); 2881c81adf3SAart Bik auto v1Type = shuffleOp.getV1VectorType(); 2891c81adf3SAart Bik auto v2Type = shuffleOp.getV2VectorType(); 2901c81adf3SAart Bik auto vectorType = shuffleOp.getVectorType(); 2911c81adf3SAart Bik Type llvmType = lowering.convertType(vectorType); 2921c81adf3SAart Bik auto maskArrayAttr = shuffleOp.mask(); 2931c81adf3SAart Bik 2941c81adf3SAart Bik // Bail if result type cannot be lowered. 2951c81adf3SAart Bik if (!llvmType) 2961c81adf3SAart Bik return matchFailure(); 2971c81adf3SAart Bik 2981c81adf3SAart Bik // Get rank and dimension sizes. 2991c81adf3SAart Bik int64_t rank = vectorType.getRank(); 3001c81adf3SAart Bik assert(v1Type.getRank() == rank); 3011c81adf3SAart Bik assert(v2Type.getRank() == rank); 3021c81adf3SAart Bik int64_t v1Dim = v1Type.getDimSize(0); 3031c81adf3SAart Bik 3041c81adf3SAart Bik // For rank 1, where both operands have *exactly* the same vector type, 3051c81adf3SAart Bik // there is direct shuffle support in LLVM. Use it! 3061c81adf3SAart Bik if (rank == 1 && v1Type == v2Type) { 307e62a6956SRiver Riddle Value shuffle = rewriter.create<LLVM::ShuffleVectorOp>( 3081c81adf3SAart Bik loc, adaptor.v1(), adaptor.v2(), maskArrayAttr); 3091c81adf3SAart Bik rewriter.replaceOp(op, shuffle); 3101c81adf3SAart Bik return matchSuccess(); 311b36aaeafSAart Bik } 312b36aaeafSAart Bik 3131c81adf3SAart Bik // For all other cases, insert the individual values individually. 314e62a6956SRiver Riddle Value insert = rewriter.create<LLVM::UndefOp>(loc, llvmType); 3151c81adf3SAart Bik int64_t insPos = 0; 3161c81adf3SAart Bik for (auto en : llvm::enumerate(maskArrayAttr)) { 3171c81adf3SAart Bik int64_t extPos = en.value().cast<IntegerAttr>().getInt(); 318e62a6956SRiver Riddle Value value = adaptor.v1(); 3191c81adf3SAart Bik if (extPos >= v1Dim) { 3201c81adf3SAart Bik extPos -= v1Dim; 3211c81adf3SAart Bik value = adaptor.v2(); 322b36aaeafSAart Bik } 323e62a6956SRiver Riddle Value extract = 3241c81adf3SAart Bik extractOne(rewriter, lowering, loc, value, llvmType, rank, extPos); 3251c81adf3SAart Bik insert = insertOne(rewriter, lowering, loc, insert, extract, llvmType, 3261c81adf3SAart Bik rank, insPos++); 3271c81adf3SAart Bik } 3281c81adf3SAart Bik rewriter.replaceOp(op, insert); 3291c81adf3SAart Bik return matchSuccess(); 330b36aaeafSAart Bik } 331b36aaeafSAart Bik }; 332b36aaeafSAart Bik 333cd5dab8aSAart Bik class VectorExtractElementOpConversion : public LLVMOpLowering { 334cd5dab8aSAart Bik public: 335cd5dab8aSAart Bik explicit VectorExtractElementOpConversion(MLIRContext *context, 336cd5dab8aSAart Bik LLVMTypeConverter &typeConverter) 337cd5dab8aSAart Bik : LLVMOpLowering(vector::ExtractElementOp::getOperationName(), context, 338cd5dab8aSAart Bik typeConverter) {} 339cd5dab8aSAart Bik 340cd5dab8aSAart Bik PatternMatchResult 341e62a6956SRiver Riddle matchAndRewrite(Operation *op, ArrayRef<Value> operands, 342cd5dab8aSAart Bik ConversionPatternRewriter &rewriter) const override { 343cd5dab8aSAart Bik auto adaptor = vector::ExtractElementOpOperandAdaptor(operands); 344cd5dab8aSAart Bik auto extractEltOp = cast<vector::ExtractElementOp>(op); 345cd5dab8aSAart Bik auto vectorType = extractEltOp.getVectorType(); 346cd5dab8aSAart Bik auto llvmType = lowering.convertType(vectorType.getElementType()); 347cd5dab8aSAart Bik 348cd5dab8aSAart Bik // Bail if result type cannot be lowered. 349cd5dab8aSAart Bik if (!llvmType) 350cd5dab8aSAart Bik return matchFailure(); 351cd5dab8aSAart Bik 352cd5dab8aSAart Bik rewriter.replaceOpWithNewOp<LLVM::ExtractElementOp>( 353cd5dab8aSAart Bik op, llvmType, adaptor.vector(), adaptor.position()); 354cd5dab8aSAart Bik return matchSuccess(); 355cd5dab8aSAart Bik } 356cd5dab8aSAart Bik }; 357cd5dab8aSAart Bik 3589826fe5cSAart Bik class VectorExtractOpConversion : public LLVMOpLowering { 3595c0c51a9SNicolas Vasilache public: 3609826fe5cSAart Bik explicit VectorExtractOpConversion(MLIRContext *context, 3615c0c51a9SNicolas Vasilache LLVMTypeConverter &typeConverter) 362d37f2725SAart Bik : LLVMOpLowering(vector::ExtractOp::getOperationName(), context, 3635c0c51a9SNicolas Vasilache typeConverter) {} 3645c0c51a9SNicolas Vasilache 3655c0c51a9SNicolas Vasilache PatternMatchResult 366e62a6956SRiver Riddle matchAndRewrite(Operation *op, ArrayRef<Value> operands, 3675c0c51a9SNicolas Vasilache ConversionPatternRewriter &rewriter) const override { 3685c0c51a9SNicolas Vasilache auto loc = op->getLoc(); 369d37f2725SAart Bik auto adaptor = vector::ExtractOpOperandAdaptor(operands); 370d37f2725SAart Bik auto extractOp = cast<vector::ExtractOp>(op); 3719826fe5cSAart Bik auto vectorType = extractOp.getVectorType(); 3722bdf33ccSRiver Riddle auto resultType = extractOp.getResult().getType(); 3735c0c51a9SNicolas Vasilache auto llvmResultType = lowering.convertType(resultType); 3745c0c51a9SNicolas Vasilache auto positionArrayAttr = extractOp.position(); 3759826fe5cSAart Bik 3769826fe5cSAart Bik // Bail if result type cannot be lowered. 3779826fe5cSAart Bik if (!llvmResultType) 3789826fe5cSAart Bik return matchFailure(); 3799826fe5cSAart Bik 3805c0c51a9SNicolas Vasilache // One-shot extraction of vector from array (only requires extractvalue). 3815c0c51a9SNicolas Vasilache if (resultType.isa<VectorType>()) { 382e62a6956SRiver Riddle Value extracted = rewriter.create<LLVM::ExtractValueOp>( 3835c0c51a9SNicolas Vasilache loc, llvmResultType, adaptor.vector(), positionArrayAttr); 3845c0c51a9SNicolas Vasilache rewriter.replaceOp(op, extracted); 3855c0c51a9SNicolas Vasilache return matchSuccess(); 3865c0c51a9SNicolas Vasilache } 3875c0c51a9SNicolas Vasilache 3889826fe5cSAart Bik // Potential extraction of 1-D vector from array. 3895c0c51a9SNicolas Vasilache auto *context = op->getContext(); 390e62a6956SRiver Riddle Value extracted = adaptor.vector(); 3915c0c51a9SNicolas Vasilache auto positionAttrs = positionArrayAttr.getValue(); 3925c0c51a9SNicolas Vasilache if (positionAttrs.size() > 1) { 3939826fe5cSAart Bik auto oneDVectorType = reducedVectorTypeBack(vectorType); 3945c0c51a9SNicolas Vasilache auto nMinusOnePositionAttrs = 3955c0c51a9SNicolas Vasilache ArrayAttr::get(positionAttrs.drop_back(), context); 3965c0c51a9SNicolas Vasilache extracted = rewriter.create<LLVM::ExtractValueOp>( 3975c0c51a9SNicolas Vasilache loc, lowering.convertType(oneDVectorType), extracted, 3985c0c51a9SNicolas Vasilache nMinusOnePositionAttrs); 3995c0c51a9SNicolas Vasilache } 4005c0c51a9SNicolas Vasilache 4015c0c51a9SNicolas Vasilache // Remaining extraction of element from 1-D LLVM vector 4025c0c51a9SNicolas Vasilache auto position = positionAttrs.back().cast<IntegerAttr>(); 4031d47564aSAart Bik auto i64Type = LLVM::LLVMType::getInt64Ty(lowering.getDialect()); 4041d47564aSAart Bik auto constant = rewriter.create<LLVM::ConstantOp>(loc, i64Type, position); 4055c0c51a9SNicolas Vasilache extracted = 4065c0c51a9SNicolas Vasilache rewriter.create<LLVM::ExtractElementOp>(loc, extracted, constant); 4075c0c51a9SNicolas Vasilache rewriter.replaceOp(op, extracted); 4085c0c51a9SNicolas Vasilache 4095c0c51a9SNicolas Vasilache return matchSuccess(); 4105c0c51a9SNicolas Vasilache } 4115c0c51a9SNicolas Vasilache }; 4125c0c51a9SNicolas Vasilache 413*681f929fSNicolas Vasilache /// Conversion pattern that turns a vector.fma on a 1-D vector 414*681f929fSNicolas Vasilache /// into an llvm.intr.fmuladd. This is a trivial 1-1 conversion. 415*681f929fSNicolas Vasilache /// This does not match vectors of n >= 2 rank. 416*681f929fSNicolas Vasilache /// 417*681f929fSNicolas Vasilache /// Example: 418*681f929fSNicolas Vasilache /// ``` 419*681f929fSNicolas Vasilache /// vector.fma %a, %a, %a : vector<8xf32> 420*681f929fSNicolas Vasilache /// ``` 421*681f929fSNicolas Vasilache /// is converted to: 422*681f929fSNicolas Vasilache /// ``` 423*681f929fSNicolas Vasilache /// llvm.intr.fma %va, %va, %va: 424*681f929fSNicolas Vasilache /// (!llvm<"<8 x float>">, !llvm<"<8 x float>">, !llvm<"<8 x float>">) 425*681f929fSNicolas Vasilache /// -> !llvm<"<8 x float>"> 426*681f929fSNicolas Vasilache /// ``` 427*681f929fSNicolas Vasilache class VectorFMAOp1DConversion : public LLVMOpLowering { 428*681f929fSNicolas Vasilache public: 429*681f929fSNicolas Vasilache explicit VectorFMAOp1DConversion(MLIRContext *context, 430*681f929fSNicolas Vasilache LLVMTypeConverter &typeConverter) 431*681f929fSNicolas Vasilache : LLVMOpLowering(vector::FMAOp::getOperationName(), context, 432*681f929fSNicolas Vasilache typeConverter) {} 433*681f929fSNicolas Vasilache 434*681f929fSNicolas Vasilache PatternMatchResult 435*681f929fSNicolas Vasilache matchAndRewrite(Operation *op, ArrayRef<Value> operands, 436*681f929fSNicolas Vasilache ConversionPatternRewriter &rewriter) const override { 437*681f929fSNicolas Vasilache auto adaptor = vector::FMAOpOperandAdaptor(operands); 438*681f929fSNicolas Vasilache vector::FMAOp fmaOp = cast<vector::FMAOp>(op); 439*681f929fSNicolas Vasilache VectorType vType = fmaOp.getVectorType(); 440*681f929fSNicolas Vasilache if (vType.getRank() != 1) 441*681f929fSNicolas Vasilache return matchFailure(); 442*681f929fSNicolas Vasilache rewriter.replaceOpWithNewOp<LLVM::FMAOp>(op, adaptor.lhs(), adaptor.rhs(), 443*681f929fSNicolas Vasilache adaptor.acc()); 444*681f929fSNicolas Vasilache return matchSuccess(); 445*681f929fSNicolas Vasilache } 446*681f929fSNicolas Vasilache }; 447*681f929fSNicolas Vasilache 448cd5dab8aSAart Bik class VectorInsertElementOpConversion : public LLVMOpLowering { 449cd5dab8aSAart Bik public: 450cd5dab8aSAart Bik explicit VectorInsertElementOpConversion(MLIRContext *context, 451cd5dab8aSAart Bik LLVMTypeConverter &typeConverter) 452cd5dab8aSAart Bik : LLVMOpLowering(vector::InsertElementOp::getOperationName(), context, 453cd5dab8aSAart Bik typeConverter) {} 454cd5dab8aSAart Bik 455cd5dab8aSAart Bik PatternMatchResult 456e62a6956SRiver Riddle matchAndRewrite(Operation *op, ArrayRef<Value> operands, 457cd5dab8aSAart Bik ConversionPatternRewriter &rewriter) const override { 458cd5dab8aSAart Bik auto adaptor = vector::InsertElementOpOperandAdaptor(operands); 459cd5dab8aSAart Bik auto insertEltOp = cast<vector::InsertElementOp>(op); 460cd5dab8aSAart Bik auto vectorType = insertEltOp.getDestVectorType(); 461cd5dab8aSAart Bik auto llvmType = lowering.convertType(vectorType); 462cd5dab8aSAart Bik 463cd5dab8aSAart Bik // Bail if result type cannot be lowered. 464cd5dab8aSAart Bik if (!llvmType) 465cd5dab8aSAart Bik return matchFailure(); 466cd5dab8aSAart Bik 467cd5dab8aSAart Bik rewriter.replaceOpWithNewOp<LLVM::InsertElementOp>( 468cd5dab8aSAart Bik op, llvmType, adaptor.dest(), adaptor.source(), adaptor.position()); 469cd5dab8aSAart Bik return matchSuccess(); 470cd5dab8aSAart Bik } 471cd5dab8aSAart Bik }; 472cd5dab8aSAart Bik 4739826fe5cSAart Bik class VectorInsertOpConversion : public LLVMOpLowering { 4749826fe5cSAart Bik public: 4759826fe5cSAart Bik explicit VectorInsertOpConversion(MLIRContext *context, 4769826fe5cSAart Bik LLVMTypeConverter &typeConverter) 4779826fe5cSAart Bik : LLVMOpLowering(vector::InsertOp::getOperationName(), context, 4789826fe5cSAart Bik typeConverter) {} 4799826fe5cSAart Bik 4809826fe5cSAart Bik PatternMatchResult 481e62a6956SRiver Riddle matchAndRewrite(Operation *op, ArrayRef<Value> operands, 4829826fe5cSAart Bik ConversionPatternRewriter &rewriter) const override { 4839826fe5cSAart Bik auto loc = op->getLoc(); 4849826fe5cSAart Bik auto adaptor = vector::InsertOpOperandAdaptor(operands); 4859826fe5cSAart Bik auto insertOp = cast<vector::InsertOp>(op); 4869826fe5cSAart Bik auto sourceType = insertOp.getSourceType(); 4879826fe5cSAart Bik auto destVectorType = insertOp.getDestVectorType(); 4889826fe5cSAart Bik auto llvmResultType = lowering.convertType(destVectorType); 4899826fe5cSAart Bik auto positionArrayAttr = insertOp.position(); 4909826fe5cSAart Bik 4919826fe5cSAart Bik // Bail if result type cannot be lowered. 4929826fe5cSAart Bik if (!llvmResultType) 4939826fe5cSAart Bik return matchFailure(); 4949826fe5cSAart Bik 4959826fe5cSAart Bik // One-shot insertion of a vector into an array (only requires insertvalue). 4969826fe5cSAart Bik if (sourceType.isa<VectorType>()) { 497e62a6956SRiver Riddle Value inserted = rewriter.create<LLVM::InsertValueOp>( 4989826fe5cSAart Bik loc, llvmResultType, adaptor.dest(), adaptor.source(), 4999826fe5cSAart Bik positionArrayAttr); 5009826fe5cSAart Bik rewriter.replaceOp(op, inserted); 5019826fe5cSAart Bik return matchSuccess(); 5029826fe5cSAart Bik } 5039826fe5cSAart Bik 5049826fe5cSAart Bik // Potential extraction of 1-D vector from array. 5059826fe5cSAart Bik auto *context = op->getContext(); 506e62a6956SRiver Riddle Value extracted = adaptor.dest(); 5079826fe5cSAart Bik auto positionAttrs = positionArrayAttr.getValue(); 5089826fe5cSAart Bik auto position = positionAttrs.back().cast<IntegerAttr>(); 5099826fe5cSAart Bik auto oneDVectorType = destVectorType; 5109826fe5cSAart Bik if (positionAttrs.size() > 1) { 5119826fe5cSAart Bik oneDVectorType = reducedVectorTypeBack(destVectorType); 5129826fe5cSAart Bik auto nMinusOnePositionAttrs = 5139826fe5cSAart Bik ArrayAttr::get(positionAttrs.drop_back(), context); 5149826fe5cSAart Bik extracted = rewriter.create<LLVM::ExtractValueOp>( 5159826fe5cSAart Bik loc, lowering.convertType(oneDVectorType), extracted, 5169826fe5cSAart Bik nMinusOnePositionAttrs); 5179826fe5cSAart Bik } 5189826fe5cSAart Bik 5199826fe5cSAart Bik // Insertion of an element into a 1-D LLVM vector. 5201d47564aSAart Bik auto i64Type = LLVM::LLVMType::getInt64Ty(lowering.getDialect()); 5211d47564aSAart Bik auto constant = rewriter.create<LLVM::ConstantOp>(loc, i64Type, position); 522e62a6956SRiver Riddle Value inserted = rewriter.create<LLVM::InsertElementOp>( 5239826fe5cSAart Bik loc, lowering.convertType(oneDVectorType), extracted, adaptor.source(), 5249826fe5cSAart Bik constant); 5259826fe5cSAart Bik 5269826fe5cSAart Bik // Potential insertion of resulting 1-D vector into array. 5279826fe5cSAart Bik if (positionAttrs.size() > 1) { 5289826fe5cSAart Bik auto nMinusOnePositionAttrs = 5299826fe5cSAart Bik ArrayAttr::get(positionAttrs.drop_back(), context); 5309826fe5cSAart Bik inserted = rewriter.create<LLVM::InsertValueOp>(loc, llvmResultType, 5319826fe5cSAart Bik adaptor.dest(), inserted, 5329826fe5cSAart Bik nMinusOnePositionAttrs); 5339826fe5cSAart Bik } 5349826fe5cSAart Bik 5359826fe5cSAart Bik rewriter.replaceOp(op, inserted); 5369826fe5cSAart Bik return matchSuccess(); 5379826fe5cSAart Bik } 5389826fe5cSAart Bik }; 5399826fe5cSAart Bik 540*681f929fSNicolas Vasilache /// Rank reducing rewrite for n-D FMA into (n-1)-D FMA where n > 1. 541*681f929fSNicolas Vasilache /// 542*681f929fSNicolas Vasilache /// Example: 543*681f929fSNicolas Vasilache /// ``` 544*681f929fSNicolas Vasilache /// %d = vector.fma %a, %b, %c : vector<2x4xf32> 545*681f929fSNicolas Vasilache /// ``` 546*681f929fSNicolas Vasilache /// is rewritten into: 547*681f929fSNicolas Vasilache /// ``` 548*681f929fSNicolas Vasilache /// %r = splat %f0: vector<2x4xf32> 549*681f929fSNicolas Vasilache /// %va = vector.extractvalue %a[0] : vector<2x4xf32> 550*681f929fSNicolas Vasilache /// %vb = vector.extractvalue %b[0] : vector<2x4xf32> 551*681f929fSNicolas Vasilache /// %vc = vector.extractvalue %c[0] : vector<2x4xf32> 552*681f929fSNicolas Vasilache /// %vd = vector.fma %va, %vb, %vc : vector<4xf32> 553*681f929fSNicolas Vasilache /// %r2 = vector.insertvalue %vd, %r[0] : vector<4xf32> into vector<2x4xf32> 554*681f929fSNicolas Vasilache /// %va2 = vector.extractvalue %a2[1] : vector<2x4xf32> 555*681f929fSNicolas Vasilache /// %vb2 = vector.extractvalue %b2[1] : vector<2x4xf32> 556*681f929fSNicolas Vasilache /// %vc2 = vector.extractvalue %c2[1] : vector<2x4xf32> 557*681f929fSNicolas Vasilache /// %vd2 = vector.fma %va2, %vb2, %vc2 : vector<4xf32> 558*681f929fSNicolas Vasilache /// %r3 = vector.insertvalue %vd2, %r2[1] : vector<4xf32> into vector<2x4xf32> 559*681f929fSNicolas Vasilache /// // %r3 holds the final value. 560*681f929fSNicolas Vasilache /// ``` 561*681f929fSNicolas Vasilache class VectorFMAOpNDRewritePattern : public OpRewritePattern<FMAOp> { 562*681f929fSNicolas Vasilache public: 563*681f929fSNicolas Vasilache using OpRewritePattern<FMAOp>::OpRewritePattern; 564*681f929fSNicolas Vasilache 565*681f929fSNicolas Vasilache PatternMatchResult matchAndRewrite(FMAOp op, 566*681f929fSNicolas Vasilache PatternRewriter &rewriter) const override { 567*681f929fSNicolas Vasilache auto vType = op.getVectorType(); 568*681f929fSNicolas Vasilache if (vType.getRank() < 2) 569*681f929fSNicolas Vasilache return matchFailure(); 570*681f929fSNicolas Vasilache 571*681f929fSNicolas Vasilache auto loc = op.getLoc(); 572*681f929fSNicolas Vasilache auto elemType = vType.getElementType(); 573*681f929fSNicolas Vasilache Value zero = rewriter.create<ConstantOp>(loc, elemType, 574*681f929fSNicolas Vasilache rewriter.getZeroAttr(elemType)); 575*681f929fSNicolas Vasilache Value desc = rewriter.create<SplatOp>(loc, vType, zero); 576*681f929fSNicolas Vasilache for (int64_t i = 0, e = vType.getShape().front(); i != e; ++i) { 577*681f929fSNicolas Vasilache Value extrLHS = rewriter.create<ExtractOp>(loc, op.lhs(), i); 578*681f929fSNicolas Vasilache Value extrRHS = rewriter.create<ExtractOp>(loc, op.rhs(), i); 579*681f929fSNicolas Vasilache Value extrACC = rewriter.create<ExtractOp>(loc, op.acc(), i); 580*681f929fSNicolas Vasilache Value fma = rewriter.create<FMAOp>(loc, extrLHS, extrRHS, extrACC); 581*681f929fSNicolas Vasilache desc = rewriter.create<InsertOp>(loc, fma, desc, i); 582*681f929fSNicolas Vasilache } 583*681f929fSNicolas Vasilache rewriter.replaceOp(op, desc); 584*681f929fSNicolas Vasilache return matchSuccess(); 585*681f929fSNicolas Vasilache } 586*681f929fSNicolas Vasilache }; 587*681f929fSNicolas Vasilache 5882d515e49SNicolas Vasilache // When ranks are different, InsertStridedSlice needs to extract a properly 5892d515e49SNicolas Vasilache // ranked vector from the destination vector into which to insert. This pattern 5902d515e49SNicolas Vasilache // only takes care of this part and forwards the rest of the conversion to 5912d515e49SNicolas Vasilache // another pattern that converts InsertStridedSlice for operands of the same 5922d515e49SNicolas Vasilache // rank. 5932d515e49SNicolas Vasilache // 5942d515e49SNicolas Vasilache // RewritePattern for InsertStridedSliceOp where source and destination vectors 5952d515e49SNicolas Vasilache // have different ranks. In this case: 5962d515e49SNicolas Vasilache // 1. the proper subvector is extracted from the destination vector 5972d515e49SNicolas Vasilache // 2. a new InsertStridedSlice op is created to insert the source in the 5982d515e49SNicolas Vasilache // destination subvector 5992d515e49SNicolas Vasilache // 3. the destination subvector is inserted back in the proper place 6002d515e49SNicolas Vasilache // 4. the op is replaced by the result of step 3. 6012d515e49SNicolas Vasilache // The new InsertStridedSlice from step 2. will be picked up by a 6022d515e49SNicolas Vasilache // `VectorInsertStridedSliceOpSameRankRewritePattern`. 6032d515e49SNicolas Vasilache class VectorInsertStridedSliceOpDifferentRankRewritePattern 6042d515e49SNicolas Vasilache : public OpRewritePattern<InsertStridedSliceOp> { 6052d515e49SNicolas Vasilache public: 6062d515e49SNicolas Vasilache using OpRewritePattern<InsertStridedSliceOp>::OpRewritePattern; 6072d515e49SNicolas Vasilache 6082d515e49SNicolas Vasilache PatternMatchResult matchAndRewrite(InsertStridedSliceOp op, 6092d515e49SNicolas Vasilache PatternRewriter &rewriter) const override { 6102d515e49SNicolas Vasilache auto srcType = op.getSourceVectorType(); 6112d515e49SNicolas Vasilache auto dstType = op.getDestVectorType(); 6122d515e49SNicolas Vasilache 6132d515e49SNicolas Vasilache if (op.offsets().getValue().empty()) 6142d515e49SNicolas Vasilache return matchFailure(); 6152d515e49SNicolas Vasilache 6162d515e49SNicolas Vasilache auto loc = op.getLoc(); 6172d515e49SNicolas Vasilache int64_t rankDiff = dstType.getRank() - srcType.getRank(); 6182d515e49SNicolas Vasilache assert(rankDiff >= 0); 6192d515e49SNicolas Vasilache if (rankDiff == 0) 6202d515e49SNicolas Vasilache return matchFailure(); 6212d515e49SNicolas Vasilache 6222d515e49SNicolas Vasilache int64_t rankRest = dstType.getRank() - rankDiff; 6232d515e49SNicolas Vasilache // Extract / insert the subvector of matching rank and InsertStridedSlice 6242d515e49SNicolas Vasilache // on it. 6252d515e49SNicolas Vasilache Value extracted = 6262d515e49SNicolas Vasilache rewriter.create<ExtractOp>(loc, op.dest(), 6272d515e49SNicolas Vasilache getI64SubArray(op.offsets(), /*dropFront=*/0, 6282d515e49SNicolas Vasilache /*dropFront=*/rankRest)); 6292d515e49SNicolas Vasilache // A different pattern will kick in for InsertStridedSlice with matching 6302d515e49SNicolas Vasilache // ranks. 6312d515e49SNicolas Vasilache auto stridedSliceInnerOp = rewriter.create<InsertStridedSliceOp>( 6322d515e49SNicolas Vasilache loc, op.source(), extracted, 6332d515e49SNicolas Vasilache getI64SubArray(op.offsets(), /*dropFront=*/rankDiff), 634c8fc76a9Saartbik getI64SubArray(op.strides(), /*dropFront=*/0)); 6352d515e49SNicolas Vasilache rewriter.replaceOpWithNewOp<InsertOp>( 6362d515e49SNicolas Vasilache op, stridedSliceInnerOp.getResult(), op.dest(), 6372d515e49SNicolas Vasilache getI64SubArray(op.offsets(), /*dropFront=*/0, 6382d515e49SNicolas Vasilache /*dropFront=*/rankRest)); 6392d515e49SNicolas Vasilache return matchSuccess(); 6402d515e49SNicolas Vasilache } 6412d515e49SNicolas Vasilache }; 6422d515e49SNicolas Vasilache 6432d515e49SNicolas Vasilache // RewritePattern for InsertStridedSliceOp where source and destination vectors 6442d515e49SNicolas Vasilache // have the same rank. In this case, we reduce 6452d515e49SNicolas Vasilache // 1. the proper subvector is extracted from the destination vector 6462d515e49SNicolas Vasilache // 2. a new InsertStridedSlice op is created to insert the source in the 6472d515e49SNicolas Vasilache // destination subvector 6482d515e49SNicolas Vasilache // 3. the destination subvector is inserted back in the proper place 6492d515e49SNicolas Vasilache // 4. the op is replaced by the result of step 3. 6502d515e49SNicolas Vasilache // The new InsertStridedSlice from step 2. will be picked up by a 6512d515e49SNicolas Vasilache // `VectorInsertStridedSliceOpSameRankRewritePattern`. 6522d515e49SNicolas Vasilache class VectorInsertStridedSliceOpSameRankRewritePattern 6532d515e49SNicolas Vasilache : public OpRewritePattern<InsertStridedSliceOp> { 6542d515e49SNicolas Vasilache public: 6552d515e49SNicolas Vasilache using OpRewritePattern<InsertStridedSliceOp>::OpRewritePattern; 6562d515e49SNicolas Vasilache 6572d515e49SNicolas Vasilache PatternMatchResult matchAndRewrite(InsertStridedSliceOp op, 6582d515e49SNicolas Vasilache PatternRewriter &rewriter) const override { 6592d515e49SNicolas Vasilache auto srcType = op.getSourceVectorType(); 6602d515e49SNicolas Vasilache auto dstType = op.getDestVectorType(); 6612d515e49SNicolas Vasilache 6622d515e49SNicolas Vasilache if (op.offsets().getValue().empty()) 6632d515e49SNicolas Vasilache return matchFailure(); 6642d515e49SNicolas Vasilache 6652d515e49SNicolas Vasilache int64_t rankDiff = dstType.getRank() - srcType.getRank(); 6662d515e49SNicolas Vasilache assert(rankDiff >= 0); 6672d515e49SNicolas Vasilache if (rankDiff != 0) 6682d515e49SNicolas Vasilache return matchFailure(); 6692d515e49SNicolas Vasilache 6702d515e49SNicolas Vasilache if (srcType == dstType) { 6712d515e49SNicolas Vasilache rewriter.replaceOp(op, op.source()); 6722d515e49SNicolas Vasilache return matchSuccess(); 6732d515e49SNicolas Vasilache } 6742d515e49SNicolas Vasilache 6752d515e49SNicolas Vasilache int64_t offset = 6762d515e49SNicolas Vasilache op.offsets().getValue().front().cast<IntegerAttr>().getInt(); 6772d515e49SNicolas Vasilache int64_t size = srcType.getShape().front(); 6782d515e49SNicolas Vasilache int64_t stride = 6792d515e49SNicolas Vasilache op.strides().getValue().front().cast<IntegerAttr>().getInt(); 6802d515e49SNicolas Vasilache 6812d515e49SNicolas Vasilache auto loc = op.getLoc(); 6822d515e49SNicolas Vasilache Value res = op.dest(); 6832d515e49SNicolas Vasilache // For each slice of the source vector along the most major dimension. 6842d515e49SNicolas Vasilache for (int64_t off = offset, e = offset + size * stride, idx = 0; off < e; 6852d515e49SNicolas Vasilache off += stride, ++idx) { 6862d515e49SNicolas Vasilache // 1. extract the proper subvector (or element) from source 6872d515e49SNicolas Vasilache Value extractedSource = extractOne(rewriter, loc, op.source(), idx); 6882d515e49SNicolas Vasilache if (extractedSource.getType().isa<VectorType>()) { 6892d515e49SNicolas Vasilache // 2. If we have a vector, extract the proper subvector from destination 6902d515e49SNicolas Vasilache // Otherwise we are at the element level and no need to recurse. 6912d515e49SNicolas Vasilache Value extractedDest = extractOne(rewriter, loc, op.dest(), off); 6922d515e49SNicolas Vasilache // 3. Reduce the problem to lowering a new InsertStridedSlice op with 6932d515e49SNicolas Vasilache // smaller rank. 6942d515e49SNicolas Vasilache InsertStridedSliceOp insertStridedSliceOp = 6952d515e49SNicolas Vasilache rewriter.create<InsertStridedSliceOp>( 6962d515e49SNicolas Vasilache loc, extractedSource, extractedDest, 6972d515e49SNicolas Vasilache getI64SubArray(op.offsets(), /* dropFront=*/1), 6982d515e49SNicolas Vasilache getI64SubArray(op.strides(), /* dropFront=*/1)); 6992d515e49SNicolas Vasilache // Call matchAndRewrite recursively from within the pattern. This 7002d515e49SNicolas Vasilache // circumvents the current limitation that a given pattern cannot 7012d515e49SNicolas Vasilache // be called multiple times by the PatternRewrite infrastructure (to 7022d515e49SNicolas Vasilache // avoid infinite recursion, but in this case, infinite recursion 7032d515e49SNicolas Vasilache // cannot happen because the rank is strictly decreasing). 7042d515e49SNicolas Vasilache // TODO(rriddle, nicolasvasilache) Implement something like a hook for 7052d515e49SNicolas Vasilache // a potential function that must decrease and allow the same pattern 7062d515e49SNicolas Vasilache // multiple times. 7072d515e49SNicolas Vasilache auto success = matchAndRewrite(insertStridedSliceOp, rewriter); 7082d515e49SNicolas Vasilache (void)success; 7092d515e49SNicolas Vasilache assert(success && "Unexpected failure"); 7102d515e49SNicolas Vasilache extractedSource = insertStridedSliceOp; 7112d515e49SNicolas Vasilache } 7122d515e49SNicolas Vasilache // 4. Insert the extractedSource into the res vector. 7132d515e49SNicolas Vasilache res = insertOne(rewriter, loc, extractedSource, res, off); 7142d515e49SNicolas Vasilache } 7152d515e49SNicolas Vasilache 7162d515e49SNicolas Vasilache rewriter.replaceOp(op, res); 7172d515e49SNicolas Vasilache return matchSuccess(); 7182d515e49SNicolas Vasilache } 7192d515e49SNicolas Vasilache }; 7202d515e49SNicolas Vasilache 7215c0c51a9SNicolas Vasilache class VectorOuterProductOpConversion : public LLVMOpLowering { 7225c0c51a9SNicolas Vasilache public: 7235c0c51a9SNicolas Vasilache explicit VectorOuterProductOpConversion(MLIRContext *context, 7245c0c51a9SNicolas Vasilache LLVMTypeConverter &typeConverter) 7255c0c51a9SNicolas Vasilache : LLVMOpLowering(vector::OuterProductOp::getOperationName(), context, 7265c0c51a9SNicolas Vasilache typeConverter) {} 7275c0c51a9SNicolas Vasilache 7285c0c51a9SNicolas Vasilache PatternMatchResult 729e62a6956SRiver Riddle matchAndRewrite(Operation *op, ArrayRef<Value> operands, 7305c0c51a9SNicolas Vasilache ConversionPatternRewriter &rewriter) const override { 7315c0c51a9SNicolas Vasilache auto loc = op->getLoc(); 7325c0c51a9SNicolas Vasilache auto adaptor = vector::OuterProductOpOperandAdaptor(operands); 7335c0c51a9SNicolas Vasilache auto *ctx = op->getContext(); 7342bdf33ccSRiver Riddle auto vLHS = adaptor.lhs().getType().cast<LLVM::LLVMType>(); 7352bdf33ccSRiver Riddle auto vRHS = adaptor.rhs().getType().cast<LLVM::LLVMType>(); 7365c0c51a9SNicolas Vasilache auto rankLHS = vLHS.getUnderlyingType()->getVectorNumElements(); 7375c0c51a9SNicolas Vasilache auto rankRHS = vRHS.getUnderlyingType()->getVectorNumElements(); 7385c0c51a9SNicolas Vasilache auto llvmArrayOfVectType = lowering.convertType( 7392bdf33ccSRiver Riddle cast<vector::OuterProductOp>(op).getResult().getType()); 740e62a6956SRiver Riddle Value desc = rewriter.create<LLVM::UndefOp>(loc, llvmArrayOfVectType); 741e62a6956SRiver Riddle Value a = adaptor.lhs(), b = adaptor.rhs(); 742e62a6956SRiver Riddle Value acc = adaptor.acc().empty() ? nullptr : adaptor.acc().front(); 743e62a6956SRiver Riddle SmallVector<Value, 8> lhs, accs; 7445c0c51a9SNicolas Vasilache lhs.reserve(rankLHS); 7455c0c51a9SNicolas Vasilache accs.reserve(rankLHS); 7465c0c51a9SNicolas Vasilache for (unsigned d = 0, e = rankLHS; d < e; ++d) { 7475c0c51a9SNicolas Vasilache // shufflevector explicitly requires i32. 7485c0c51a9SNicolas Vasilache auto attr = rewriter.getI32IntegerAttr(d); 7495c0c51a9SNicolas Vasilache SmallVector<Attribute, 4> bcastAttr(rankRHS, attr); 7505c0c51a9SNicolas Vasilache auto bcastArrayAttr = ArrayAttr::get(bcastAttr, ctx); 751e62a6956SRiver Riddle Value aD = nullptr, accD = nullptr; 7525c0c51a9SNicolas Vasilache // 1. Broadcast the element a[d] into vector aD. 7535c0c51a9SNicolas Vasilache aD = rewriter.create<LLVM::ShuffleVectorOp>(loc, a, a, bcastArrayAttr); 7545c0c51a9SNicolas Vasilache // 2. If acc is present, extract 1-d vector acc[d] into accD. 7555c0c51a9SNicolas Vasilache if (acc) 7565c0c51a9SNicolas Vasilache accD = rewriter.create<LLVM::ExtractValueOp>( 7575c0c51a9SNicolas Vasilache loc, vRHS, acc, rewriter.getI64ArrayAttr(d)); 7585c0c51a9SNicolas Vasilache // 3. Compute aD outer b (plus accD, if relevant). 759e62a6956SRiver Riddle Value aOuterbD = 760499ad458SNicolas Vasilache accD 761499ad458SNicolas Vasilache ? rewriter.create<LLVM::FMAOp>(loc, vRHS, aD, b, accD).getResult() 7625c0c51a9SNicolas Vasilache : rewriter.create<LLVM::FMulOp>(loc, aD, b).getResult(); 7635c0c51a9SNicolas Vasilache // 4. Insert as value `d` in the descriptor. 7645c0c51a9SNicolas Vasilache desc = rewriter.create<LLVM::InsertValueOp>(loc, llvmArrayOfVectType, 7655c0c51a9SNicolas Vasilache desc, aOuterbD, 7665c0c51a9SNicolas Vasilache rewriter.getI64ArrayAttr(d)); 7675c0c51a9SNicolas Vasilache } 7685c0c51a9SNicolas Vasilache rewriter.replaceOp(op, desc); 7695c0c51a9SNicolas Vasilache return matchSuccess(); 7705c0c51a9SNicolas Vasilache } 7715c0c51a9SNicolas Vasilache }; 7725c0c51a9SNicolas Vasilache 7735c0c51a9SNicolas Vasilache class VectorTypeCastOpConversion : public LLVMOpLowering { 7745c0c51a9SNicolas Vasilache public: 7755c0c51a9SNicolas Vasilache explicit VectorTypeCastOpConversion(MLIRContext *context, 7765c0c51a9SNicolas Vasilache LLVMTypeConverter &typeConverter) 7775c0c51a9SNicolas Vasilache : LLVMOpLowering(vector::TypeCastOp::getOperationName(), context, 7785c0c51a9SNicolas Vasilache typeConverter) {} 7795c0c51a9SNicolas Vasilache 7805c0c51a9SNicolas Vasilache PatternMatchResult 781e62a6956SRiver Riddle matchAndRewrite(Operation *op, ArrayRef<Value> operands, 7825c0c51a9SNicolas Vasilache ConversionPatternRewriter &rewriter) const override { 7835c0c51a9SNicolas Vasilache auto loc = op->getLoc(); 7845c0c51a9SNicolas Vasilache vector::TypeCastOp castOp = cast<vector::TypeCastOp>(op); 7855c0c51a9SNicolas Vasilache MemRefType sourceMemRefType = 7862bdf33ccSRiver Riddle castOp.getOperand().getType().cast<MemRefType>(); 7875c0c51a9SNicolas Vasilache MemRefType targetMemRefType = 7882bdf33ccSRiver Riddle castOp.getResult().getType().cast<MemRefType>(); 7895c0c51a9SNicolas Vasilache 7905c0c51a9SNicolas Vasilache // Only static shape casts supported atm. 7915c0c51a9SNicolas Vasilache if (!sourceMemRefType.hasStaticShape() || 7925c0c51a9SNicolas Vasilache !targetMemRefType.hasStaticShape()) 7935c0c51a9SNicolas Vasilache return matchFailure(); 7945c0c51a9SNicolas Vasilache 7955c0c51a9SNicolas Vasilache auto llvmSourceDescriptorTy = 7962bdf33ccSRiver Riddle operands[0].getType().dyn_cast<LLVM::LLVMType>(); 7975c0c51a9SNicolas Vasilache if (!llvmSourceDescriptorTy || !llvmSourceDescriptorTy.isStructTy()) 7985c0c51a9SNicolas Vasilache return matchFailure(); 7995c0c51a9SNicolas Vasilache MemRefDescriptor sourceMemRef(operands[0]); 8005c0c51a9SNicolas Vasilache 8015c0c51a9SNicolas Vasilache auto llvmTargetDescriptorTy = lowering.convertType(targetMemRefType) 8025c0c51a9SNicolas Vasilache .dyn_cast_or_null<LLVM::LLVMType>(); 8035c0c51a9SNicolas Vasilache if (!llvmTargetDescriptorTy || !llvmTargetDescriptorTy.isStructTy()) 8045c0c51a9SNicolas Vasilache return matchFailure(); 8055c0c51a9SNicolas Vasilache 8065c0c51a9SNicolas Vasilache int64_t offset; 8075c0c51a9SNicolas Vasilache SmallVector<int64_t, 4> strides; 8085c0c51a9SNicolas Vasilache auto successStrides = 8095c0c51a9SNicolas Vasilache getStridesAndOffset(sourceMemRefType, strides, offset); 8105c0c51a9SNicolas Vasilache bool isContiguous = (strides.back() == 1); 8115c0c51a9SNicolas Vasilache if (isContiguous) { 8125c0c51a9SNicolas Vasilache auto sizes = sourceMemRefType.getShape(); 8135c0c51a9SNicolas Vasilache for (int index = 0, e = strides.size() - 2; index < e; ++index) { 8145c0c51a9SNicolas Vasilache if (strides[index] != strides[index + 1] * sizes[index + 1]) { 8155c0c51a9SNicolas Vasilache isContiguous = false; 8165c0c51a9SNicolas Vasilache break; 8175c0c51a9SNicolas Vasilache } 8185c0c51a9SNicolas Vasilache } 8195c0c51a9SNicolas Vasilache } 8205c0c51a9SNicolas Vasilache // Only contiguous source tensors supported atm. 8215c0c51a9SNicolas Vasilache if (failed(successStrides) || !isContiguous) 8225c0c51a9SNicolas Vasilache return matchFailure(); 8235c0c51a9SNicolas Vasilache 8245c0c51a9SNicolas Vasilache auto int64Ty = LLVM::LLVMType::getInt64Ty(lowering.getDialect()); 8255c0c51a9SNicolas Vasilache 8265c0c51a9SNicolas Vasilache // Create descriptor. 8275c0c51a9SNicolas Vasilache auto desc = MemRefDescriptor::undef(rewriter, loc, llvmTargetDescriptorTy); 8285c0c51a9SNicolas Vasilache Type llvmTargetElementTy = desc.getElementType(); 8295c0c51a9SNicolas Vasilache // Set allocated ptr. 830e62a6956SRiver Riddle Value allocated = sourceMemRef.allocatedPtr(rewriter, loc); 8315c0c51a9SNicolas Vasilache allocated = 8325c0c51a9SNicolas Vasilache rewriter.create<LLVM::BitcastOp>(loc, llvmTargetElementTy, allocated); 8335c0c51a9SNicolas Vasilache desc.setAllocatedPtr(rewriter, loc, allocated); 8345c0c51a9SNicolas Vasilache // Set aligned ptr. 835e62a6956SRiver Riddle Value ptr = sourceMemRef.alignedPtr(rewriter, loc); 8365c0c51a9SNicolas Vasilache ptr = rewriter.create<LLVM::BitcastOp>(loc, llvmTargetElementTy, ptr); 8375c0c51a9SNicolas Vasilache desc.setAlignedPtr(rewriter, loc, ptr); 8385c0c51a9SNicolas Vasilache // Fill offset 0. 8395c0c51a9SNicolas Vasilache auto attr = rewriter.getIntegerAttr(rewriter.getIndexType(), 0); 8405c0c51a9SNicolas Vasilache auto zero = rewriter.create<LLVM::ConstantOp>(loc, int64Ty, attr); 8415c0c51a9SNicolas Vasilache desc.setOffset(rewriter, loc, zero); 8425c0c51a9SNicolas Vasilache 8435c0c51a9SNicolas Vasilache // Fill size and stride descriptors in memref. 8445c0c51a9SNicolas Vasilache for (auto indexedSize : llvm::enumerate(targetMemRefType.getShape())) { 8455c0c51a9SNicolas Vasilache int64_t index = indexedSize.index(); 8465c0c51a9SNicolas Vasilache auto sizeAttr = 8475c0c51a9SNicolas Vasilache rewriter.getIntegerAttr(rewriter.getIndexType(), indexedSize.value()); 8485c0c51a9SNicolas Vasilache auto size = rewriter.create<LLVM::ConstantOp>(loc, int64Ty, sizeAttr); 8495c0c51a9SNicolas Vasilache desc.setSize(rewriter, loc, index, size); 8505c0c51a9SNicolas Vasilache auto strideAttr = 8515c0c51a9SNicolas Vasilache rewriter.getIntegerAttr(rewriter.getIndexType(), strides[index]); 8525c0c51a9SNicolas Vasilache auto stride = rewriter.create<LLVM::ConstantOp>(loc, int64Ty, strideAttr); 8535c0c51a9SNicolas Vasilache desc.setStride(rewriter, loc, index, stride); 8545c0c51a9SNicolas Vasilache } 8555c0c51a9SNicolas Vasilache 8565c0c51a9SNicolas Vasilache rewriter.replaceOp(op, {desc}); 8575c0c51a9SNicolas Vasilache return matchSuccess(); 8585c0c51a9SNicolas Vasilache } 8595c0c51a9SNicolas Vasilache }; 8605c0c51a9SNicolas Vasilache 861d9b500d3SAart Bik class VectorPrintOpConversion : public LLVMOpLowering { 862d9b500d3SAart Bik public: 863d9b500d3SAart Bik explicit VectorPrintOpConversion(MLIRContext *context, 864d9b500d3SAart Bik LLVMTypeConverter &typeConverter) 865d9b500d3SAart Bik : LLVMOpLowering(vector::PrintOp::getOperationName(), context, 866d9b500d3SAart Bik typeConverter) {} 867d9b500d3SAart Bik 868d9b500d3SAart Bik // Proof-of-concept lowering implementation that relies on a small 869d9b500d3SAart Bik // runtime support library, which only needs to provide a few 870d9b500d3SAart Bik // printing methods (single value for all data types, opening/closing 871d9b500d3SAart Bik // bracket, comma, newline). The lowering fully unrolls a vector 872d9b500d3SAart Bik // in terms of these elementary printing operations. The advantage 873d9b500d3SAart Bik // of this approach is that the library can remain unaware of all 874d9b500d3SAart Bik // low-level implementation details of vectors while still supporting 875d9b500d3SAart Bik // output of any shaped and dimensioned vector. Due to full unrolling, 876d9b500d3SAart Bik // this approach is less suited for very large vectors though. 877d9b500d3SAart Bik // 878d9b500d3SAart Bik // TODO(ajcbik): rely solely on libc in future? something else? 879d9b500d3SAart Bik // 880d9b500d3SAart Bik PatternMatchResult 881e62a6956SRiver Riddle matchAndRewrite(Operation *op, ArrayRef<Value> operands, 882d9b500d3SAart Bik ConversionPatternRewriter &rewriter) const override { 883d9b500d3SAart Bik auto printOp = cast<vector::PrintOp>(op); 884d9b500d3SAart Bik auto adaptor = vector::PrintOpOperandAdaptor(operands); 885d9b500d3SAart Bik Type printType = printOp.getPrintType(); 886d9b500d3SAart Bik 887d9b500d3SAart Bik if (lowering.convertType(printType) == nullptr) 888d9b500d3SAart Bik return matchFailure(); 889d9b500d3SAart Bik 890d9b500d3SAart Bik // Make sure element type has runtime support (currently just Float/Double). 891d9b500d3SAart Bik VectorType vectorType = printType.dyn_cast<VectorType>(); 892d9b500d3SAart Bik Type eltType = vectorType ? vectorType.getElementType() : printType; 893d9b500d3SAart Bik int64_t rank = vectorType ? vectorType.getRank() : 0; 894d9b500d3SAart Bik Operation *printer; 895e52414b1Saartbik if (eltType.isInteger(32)) 896e52414b1Saartbik printer = getPrintI32(op); 897e52414b1Saartbik else if (eltType.isInteger(64)) 898e52414b1Saartbik printer = getPrintI64(op); 899e52414b1Saartbik else if (eltType.isF32()) 900d9b500d3SAart Bik printer = getPrintFloat(op); 901d9b500d3SAart Bik else if (eltType.isF64()) 902d9b500d3SAart Bik printer = getPrintDouble(op); 903d9b500d3SAart Bik else 904d9b500d3SAart Bik return matchFailure(); 905d9b500d3SAart Bik 906d9b500d3SAart Bik // Unroll vector into elementary print calls. 907d9b500d3SAart Bik emitRanks(rewriter, op, adaptor.source(), vectorType, printer, rank); 908d9b500d3SAart Bik emitCall(rewriter, op->getLoc(), getPrintNewline(op)); 909d9b500d3SAart Bik rewriter.eraseOp(op); 910d9b500d3SAart Bik return matchSuccess(); 911d9b500d3SAart Bik } 912d9b500d3SAart Bik 913d9b500d3SAart Bik private: 914d9b500d3SAart Bik void emitRanks(ConversionPatternRewriter &rewriter, Operation *op, 915e62a6956SRiver Riddle Value value, VectorType vectorType, Operation *printer, 916d9b500d3SAart Bik int64_t rank) const { 917d9b500d3SAart Bik Location loc = op->getLoc(); 918d9b500d3SAart Bik if (rank == 0) { 919d9b500d3SAart Bik emitCall(rewriter, loc, printer, value); 920d9b500d3SAart Bik return; 921d9b500d3SAart Bik } 922d9b500d3SAart Bik 923d9b500d3SAart Bik emitCall(rewriter, loc, getPrintOpen(op)); 924d9b500d3SAart Bik Operation *printComma = getPrintComma(op); 925d9b500d3SAart Bik int64_t dim = vectorType.getDimSize(0); 926d9b500d3SAart Bik for (int64_t d = 0; d < dim; ++d) { 927d9b500d3SAart Bik auto reducedType = 928d9b500d3SAart Bik rank > 1 ? reducedVectorTypeFront(vectorType) : nullptr; 929d9b500d3SAart Bik auto llvmType = lowering.convertType( 930d9b500d3SAart Bik rank > 1 ? reducedType : vectorType.getElementType()); 931e62a6956SRiver Riddle Value nestedVal = 932d9b500d3SAart Bik extractOne(rewriter, lowering, loc, value, llvmType, rank, d); 933d9b500d3SAart Bik emitRanks(rewriter, op, nestedVal, reducedType, printer, rank - 1); 934d9b500d3SAart Bik if (d != dim - 1) 935d9b500d3SAart Bik emitCall(rewriter, loc, printComma); 936d9b500d3SAart Bik } 937d9b500d3SAart Bik emitCall(rewriter, loc, getPrintClose(op)); 938d9b500d3SAart Bik } 939d9b500d3SAart Bik 940d9b500d3SAart Bik // Helper to emit a call. 941d9b500d3SAart Bik static void emitCall(ConversionPatternRewriter &rewriter, Location loc, 942d9b500d3SAart Bik Operation *ref, ValueRange params = ValueRange()) { 943d9b500d3SAart Bik rewriter.create<LLVM::CallOp>(loc, ArrayRef<Type>{}, 944d9b500d3SAart Bik rewriter.getSymbolRefAttr(ref), params); 945d9b500d3SAart Bik } 946d9b500d3SAart Bik 947d9b500d3SAart Bik // Helper for printer method declaration (first hit) and lookup. 948d9b500d3SAart Bik static Operation *getPrint(Operation *op, LLVM::LLVMDialect *dialect, 949d9b500d3SAart Bik StringRef name, ArrayRef<LLVM::LLVMType> params) { 950d9b500d3SAart Bik auto module = op->getParentOfType<ModuleOp>(); 951d9b500d3SAart Bik auto func = module.lookupSymbol<LLVM::LLVMFuncOp>(name); 952d9b500d3SAart Bik if (func) 953d9b500d3SAart Bik return func; 954d9b500d3SAart Bik OpBuilder moduleBuilder(module.getBodyRegion()); 955d9b500d3SAart Bik return moduleBuilder.create<LLVM::LLVMFuncOp>( 956d9b500d3SAart Bik op->getLoc(), name, 957d9b500d3SAart Bik LLVM::LLVMType::getFunctionTy(LLVM::LLVMType::getVoidTy(dialect), 958d9b500d3SAart Bik params, /*isVarArg=*/false)); 959d9b500d3SAart Bik } 960d9b500d3SAart Bik 961d9b500d3SAart Bik // Helpers for method names. 962e52414b1Saartbik Operation *getPrintI32(Operation *op) const { 963e52414b1Saartbik LLVM::LLVMDialect *dialect = lowering.getDialect(); 964e52414b1Saartbik return getPrint(op, dialect, "print_i32", 965e52414b1Saartbik LLVM::LLVMType::getInt32Ty(dialect)); 966e52414b1Saartbik } 967e52414b1Saartbik Operation *getPrintI64(Operation *op) const { 968e52414b1Saartbik LLVM::LLVMDialect *dialect = lowering.getDialect(); 969e52414b1Saartbik return getPrint(op, dialect, "print_i64", 970e52414b1Saartbik LLVM::LLVMType::getInt64Ty(dialect)); 971e52414b1Saartbik } 972d9b500d3SAart Bik Operation *getPrintFloat(Operation *op) const { 973d9b500d3SAart Bik LLVM::LLVMDialect *dialect = lowering.getDialect(); 974d9b500d3SAart Bik return getPrint(op, dialect, "print_f32", 975d9b500d3SAart Bik LLVM::LLVMType::getFloatTy(dialect)); 976d9b500d3SAart Bik } 977d9b500d3SAart Bik Operation *getPrintDouble(Operation *op) const { 978d9b500d3SAart Bik LLVM::LLVMDialect *dialect = lowering.getDialect(); 979d9b500d3SAart Bik return getPrint(op, dialect, "print_f64", 980d9b500d3SAart Bik LLVM::LLVMType::getDoubleTy(dialect)); 981d9b500d3SAart Bik } 982d9b500d3SAart Bik Operation *getPrintOpen(Operation *op) const { 983d9b500d3SAart Bik return getPrint(op, lowering.getDialect(), "print_open", {}); 984d9b500d3SAart Bik } 985d9b500d3SAart Bik Operation *getPrintClose(Operation *op) const { 986d9b500d3SAart Bik return getPrint(op, lowering.getDialect(), "print_close", {}); 987d9b500d3SAart Bik } 988d9b500d3SAart Bik Operation *getPrintComma(Operation *op) const { 989d9b500d3SAart Bik return getPrint(op, lowering.getDialect(), "print_comma", {}); 990d9b500d3SAart Bik } 991d9b500d3SAart Bik Operation *getPrintNewline(Operation *op) const { 992d9b500d3SAart Bik return getPrint(op, lowering.getDialect(), "print_newline", {}); 993d9b500d3SAart Bik } 994d9b500d3SAart Bik }; 995d9b500d3SAart Bik 99665678d93SNicolas Vasilache /// Progressive lowering of StridedSliceOp to either: 99765678d93SNicolas Vasilache /// 1. extractelement + insertelement for the 1-D case 99865678d93SNicolas Vasilache /// 2. extract + optional strided_slice + insert for the n-D case. 9992d515e49SNicolas Vasilache class VectorStridedSliceOpConversion : public OpRewritePattern<StridedSliceOp> { 100065678d93SNicolas Vasilache public: 100165678d93SNicolas Vasilache using OpRewritePattern<StridedSliceOp>::OpRewritePattern; 100265678d93SNicolas Vasilache 100365678d93SNicolas Vasilache PatternMatchResult matchAndRewrite(StridedSliceOp op, 100465678d93SNicolas Vasilache PatternRewriter &rewriter) const override { 100565678d93SNicolas Vasilache auto dstType = op.getResult().getType().cast<VectorType>(); 100665678d93SNicolas Vasilache 100765678d93SNicolas Vasilache assert(!op.offsets().getValue().empty() && "Unexpected empty offsets"); 100865678d93SNicolas Vasilache 100965678d93SNicolas Vasilache int64_t offset = 101065678d93SNicolas Vasilache op.offsets().getValue().front().cast<IntegerAttr>().getInt(); 101165678d93SNicolas Vasilache int64_t size = op.sizes().getValue().front().cast<IntegerAttr>().getInt(); 101265678d93SNicolas Vasilache int64_t stride = 101365678d93SNicolas Vasilache op.strides().getValue().front().cast<IntegerAttr>().getInt(); 101465678d93SNicolas Vasilache 101565678d93SNicolas Vasilache auto loc = op.getLoc(); 101665678d93SNicolas Vasilache auto elemType = dstType.getElementType(); 101765678d93SNicolas Vasilache assert(elemType.isIntOrIndexOrFloat()); 101865678d93SNicolas Vasilache Value zero = rewriter.create<ConstantOp>(loc, elemType, 101965678d93SNicolas Vasilache rewriter.getZeroAttr(elemType)); 102065678d93SNicolas Vasilache Value res = rewriter.create<SplatOp>(loc, dstType, zero); 102165678d93SNicolas Vasilache for (int64_t off = offset, e = offset + size * stride, idx = 0; off < e; 102265678d93SNicolas Vasilache off += stride, ++idx) { 102365678d93SNicolas Vasilache Value extracted = extractOne(rewriter, loc, op.vector(), off); 102465678d93SNicolas Vasilache if (op.offsets().getValue().size() > 1) { 102565678d93SNicolas Vasilache StridedSliceOp stridedSliceOp = rewriter.create<StridedSliceOp>( 102665678d93SNicolas Vasilache loc, extracted, getI64SubArray(op.offsets(), /* dropFront=*/1), 102765678d93SNicolas Vasilache getI64SubArray(op.sizes(), /* dropFront=*/1), 102865678d93SNicolas Vasilache getI64SubArray(op.strides(), /* dropFront=*/1)); 102965678d93SNicolas Vasilache // Call matchAndRewrite recursively from within the pattern. This 103065678d93SNicolas Vasilache // circumvents the current limitation that a given pattern cannot 103165678d93SNicolas Vasilache // be called multiple times by the PatternRewrite infrastructure (to 103265678d93SNicolas Vasilache // avoid infinite recursion, but in this case, infinite recursion 103365678d93SNicolas Vasilache // cannot happen because the rank is strictly decreasing). 103465678d93SNicolas Vasilache // TODO(rriddle, nicolasvasilache) Implement something like a hook for 103565678d93SNicolas Vasilache // a potential function that must decrease and allow the same pattern 103665678d93SNicolas Vasilache // multiple times. 103765678d93SNicolas Vasilache auto success = matchAndRewrite(stridedSliceOp, rewriter); 103865678d93SNicolas Vasilache (void)success; 103965678d93SNicolas Vasilache assert(success && "Unexpected failure"); 104065678d93SNicolas Vasilache extracted = stridedSliceOp; 104165678d93SNicolas Vasilache } 104265678d93SNicolas Vasilache res = insertOne(rewriter, loc, extracted, res, idx); 104365678d93SNicolas Vasilache } 104465678d93SNicolas Vasilache rewriter.replaceOp(op, {res}); 104565678d93SNicolas Vasilache return matchSuccess(); 104665678d93SNicolas Vasilache } 104765678d93SNicolas Vasilache }; 104865678d93SNicolas Vasilache 1049df186507SBenjamin Kramer } // namespace 1050df186507SBenjamin Kramer 10515c0c51a9SNicolas Vasilache /// Populate the given list with patterns that convert from Vector to LLVM. 10525c0c51a9SNicolas Vasilache void mlir::populateVectorToLLVMConversionPatterns( 10535c0c51a9SNicolas Vasilache LLVMTypeConverter &converter, OwningRewritePatternList &patterns) { 105465678d93SNicolas Vasilache MLIRContext *ctx = converter.getDialect()->getContext(); 1055*681f929fSNicolas Vasilache patterns.insert<VectorFMAOpNDRewritePattern, 1056*681f929fSNicolas Vasilache VectorInsertStridedSliceOpDifferentRankRewritePattern, 10572d515e49SNicolas Vasilache VectorInsertStridedSliceOpSameRankRewritePattern, 10582d515e49SNicolas Vasilache VectorStridedSliceOpConversion>(ctx); 10591c81adf3SAart Bik patterns.insert<VectorBroadcastOpConversion, VectorShuffleOpConversion, 1060cd5dab8aSAart Bik VectorExtractElementOpConversion, VectorExtractOpConversion, 1061*681f929fSNicolas Vasilache VectorFMAOp1DConversion, VectorInsertElementOpConversion, 1062*681f929fSNicolas Vasilache VectorInsertOpConversion, VectorOuterProductOpConversion, 1063*681f929fSNicolas Vasilache VectorTypeCastOpConversion, VectorPrintOpConversion>( 1064*681f929fSNicolas Vasilache ctx, converter); 10655c0c51a9SNicolas Vasilache } 10665c0c51a9SNicolas Vasilache 10675c0c51a9SNicolas Vasilache namespace { 10685c0c51a9SNicolas Vasilache struct LowerVectorToLLVMPass : public ModulePass<LowerVectorToLLVMPass> { 10695c0c51a9SNicolas Vasilache void runOnModule() override; 10705c0c51a9SNicolas Vasilache }; 10715c0c51a9SNicolas Vasilache } // namespace 10725c0c51a9SNicolas Vasilache 10735c0c51a9SNicolas Vasilache void LowerVectorToLLVMPass::runOnModule() { 1074459cf6e5Saartbik // Perform progressive lowering of operations on "slices". 1075459cf6e5Saartbik // Folding and DCE get rid of all non-leaking tuple ops. 1076459cf6e5Saartbik { 10775c0c51a9SNicolas Vasilache OwningRewritePatternList patterns; 1078459cf6e5Saartbik populateVectorSlicesLoweringPatterns(patterns, &getContext()); 1079459cf6e5Saartbik applyPatternsGreedily(getModule(), patterns); 1080459cf6e5Saartbik } 1081459cf6e5Saartbik 1082459cf6e5Saartbik // Convert to the LLVM IR dialect. 10835c0c51a9SNicolas Vasilache LLVMTypeConverter converter(&getContext()); 1084459cf6e5Saartbik OwningRewritePatternList patterns; 10855c0c51a9SNicolas Vasilache populateVectorToLLVMConversionPatterns(converter, patterns); 10865c0c51a9SNicolas Vasilache populateStdToLLVMConversionPatterns(converter, patterns); 10875c0c51a9SNicolas Vasilache 10885c0c51a9SNicolas Vasilache ConversionTarget target(getContext()); 10895c0c51a9SNicolas Vasilache target.addLegalDialect<LLVM::LLVMDialect>(); 10905c0c51a9SNicolas Vasilache target.addDynamicallyLegalOp<FuncOp>( 10915c0c51a9SNicolas Vasilache [&](FuncOp op) { return converter.isSignatureLegal(op.getType()); }); 10925c0c51a9SNicolas Vasilache if (failed( 10935c0c51a9SNicolas Vasilache applyPartialConversion(getModule(), target, patterns, &converter))) { 10945c0c51a9SNicolas Vasilache signalPassFailure(); 10955c0c51a9SNicolas Vasilache } 10965c0c51a9SNicolas Vasilache } 10975c0c51a9SNicolas Vasilache 10985c0c51a9SNicolas Vasilache OpPassBase<ModuleOp> *mlir::createLowerVectorToLLVMPass() { 10995c0c51a9SNicolas Vasilache return new LowerVectorToLLVMPass(); 11005c0c51a9SNicolas Vasilache } 11015c0c51a9SNicolas Vasilache 11025c0c51a9SNicolas Vasilache static PassRegistration<LowerVectorToLLVMPass> 11035c0c51a9SNicolas Vasilache pass("convert-vector-to-llvm", 11045c0c51a9SNicolas Vasilache "Lower the operations from the vector dialect into the LLVM dialect"); 1105