1319072f4SAart Bik //===- SparseTensorDialect.cpp - Sparse tensor dialect implementation -----===// 2319072f4SAart Bik // 3319072f4SAart Bik // Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions. 4319072f4SAart Bik // See https://llvm.org/LICENSE.txt for license information. 5319072f4SAart Bik // SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception 6319072f4SAart Bik // 7319072f4SAart Bik //===----------------------------------------------------------------------===// 8319072f4SAart Bik 9319072f4SAart Bik #include "mlir/Dialect/SparseTensor/IR/SparseTensor.h" 1096a23911SAart Bik #include "mlir/Dialect/StandardOps/IR/Ops.h" 11319072f4SAart Bik #include "mlir/IR/Builders.h" 120a292199SAart Bik #include "mlir/IR/DialectImplementation.h" 13319072f4SAart Bik #include "mlir/IR/OpImplementation.h" 140a292199SAart Bik #include "llvm/ADT/TypeSwitch.h" 15319072f4SAart Bik 16319072f4SAart Bik using namespace mlir; 17319072f4SAart Bik using namespace mlir::sparse_tensor; 18319072f4SAart Bik 190a292199SAart Bik //===----------------------------------------------------------------------===// 2096a23911SAart Bik // TensorDialect Attribute Methods. 210a292199SAart Bik //===----------------------------------------------------------------------===// 220a292199SAart Bik 230a292199SAart Bik #define GET_ATTRDEF_CLASSES 240a292199SAart Bik #include "mlir/Dialect/SparseTensor/IR/SparseTensorAttrDefs.cpp.inc" 250a292199SAart Bik 260a292199SAart Bik static bool acceptBitWidth(unsigned bitWidth) { 270a292199SAart Bik switch (bitWidth) { 280a292199SAart Bik case 0: 290a292199SAart Bik case 8: 300a292199SAart Bik case 16: 310a292199SAart Bik case 32: 320a292199SAart Bik case 64: 330a292199SAart Bik return true; 340a292199SAart Bik default: 350a292199SAart Bik return false; 360a292199SAart Bik } 370a292199SAart Bik } 380a292199SAart Bik 390a292199SAart Bik Attribute SparseTensorEncodingAttr::parse(MLIRContext *context, 400a292199SAart Bik DialectAsmParser &parser, Type type) { 410a292199SAart Bik if (failed(parser.parseLess())) 420a292199SAart Bik return {}; 430a292199SAart Bik // Parse the data as a dictionary. 440a292199SAart Bik DictionaryAttr dict; 450a292199SAart Bik if (failed(parser.parseAttribute(dict))) 460a292199SAart Bik return {}; 470a292199SAart Bik if (failed(parser.parseGreater())) 480a292199SAart Bik return {}; 490a292199SAart Bik // Process the data from the parsed dictionary value into struct-like data. 500a292199SAart Bik SmallVector<SparseTensorEncodingAttr::DimLevelType, 4> dlt; 510a292199SAart Bik AffineMap map = {}; 520a292199SAart Bik unsigned ptr = 0; 530a292199SAart Bik unsigned ind = 0; 540a292199SAart Bik for (const NamedAttribute &attr : dict) { 550a292199SAart Bik if (attr.first == "dimLevelType") { 560a292199SAart Bik auto arrayAttr = attr.second.dyn_cast<ArrayAttr>(); 570a292199SAart Bik if (!arrayAttr) { 580a292199SAart Bik parser.emitError(parser.getNameLoc(), 590a292199SAart Bik "expected an array for dimension level types"); 600a292199SAart Bik return {}; 610a292199SAart Bik } 620a292199SAart Bik for (unsigned i = 0, e = arrayAttr.size(); i < e; i++) { 630a292199SAart Bik auto strAttr = arrayAttr[i].dyn_cast<StringAttr>(); 640a292199SAart Bik if (!strAttr) { 650a292199SAart Bik parser.emitError(parser.getNameLoc(), 660a292199SAart Bik "expected a string value in dimension level types"); 670a292199SAart Bik return {}; 680a292199SAart Bik } 690a292199SAart Bik auto strVal = strAttr.getValue(); 700a292199SAart Bik if (strVal == "dense") { 710a292199SAart Bik dlt.push_back(SparseTensorEncodingAttr::DimLevelType::Dense); 720a292199SAart Bik } else if (strVal == "compressed") { 730a292199SAart Bik dlt.push_back(SparseTensorEncodingAttr::DimLevelType::Compressed); 740a292199SAart Bik } else if (strVal == "singleton") { 750a292199SAart Bik dlt.push_back(SparseTensorEncodingAttr::DimLevelType::Singleton); 760a292199SAart Bik } else { 770a292199SAart Bik parser.emitError(parser.getNameLoc(), 780a292199SAart Bik "unexpected dimension level type: ") 790a292199SAart Bik << strVal; 800a292199SAart Bik return {}; 810a292199SAart Bik } 820a292199SAart Bik } 830a292199SAart Bik } else if (attr.first == "dimOrdering") { 840a292199SAart Bik auto affineAttr = attr.second.dyn_cast<AffineMapAttr>(); 850a292199SAart Bik if (!affineAttr) { 860a292199SAart Bik parser.emitError(parser.getNameLoc(), 870a292199SAart Bik "expected an affine map for dimension ordering"); 880a292199SAart Bik return {}; 890a292199SAart Bik } 900a292199SAart Bik map = affineAttr.getValue(); 910a292199SAart Bik } else if (attr.first == "pointerBitWidth") { 920a292199SAart Bik auto intAttr = attr.second.dyn_cast<IntegerAttr>(); 930a292199SAart Bik if (!intAttr) { 940a292199SAart Bik parser.emitError(parser.getNameLoc(), 950a292199SAart Bik "expected an integral pointer bitwidth"); 960a292199SAart Bik return {}; 970a292199SAart Bik } 980a292199SAart Bik ptr = intAttr.getInt(); 990a292199SAart Bik } else if (attr.first == "indexBitWidth") { 1000a292199SAart Bik auto intAttr = attr.second.dyn_cast<IntegerAttr>(); 1010a292199SAart Bik if (!intAttr) { 1020a292199SAart Bik parser.emitError(parser.getNameLoc(), 1030a292199SAart Bik "expected an integral index bitwidth"); 1040a292199SAart Bik return {}; 1050a292199SAart Bik } 1060a292199SAart Bik ind = intAttr.getInt(); 1070a292199SAart Bik } else { 1080a292199SAart Bik parser.emitError(parser.getNameLoc(), "unexpected key: ") 1090a292199SAart Bik << attr.first.str(); 1100a292199SAart Bik return {}; 1110a292199SAart Bik } 1120a292199SAart Bik } 1130a292199SAart Bik // Construct struct-like storage for attribute. 1140a292199SAart Bik return parser.getChecked<SparseTensorEncodingAttr>(context, dlt, map, ptr, 1150a292199SAart Bik ind); 1160a292199SAart Bik } 1170a292199SAart Bik 1180a292199SAart Bik void SparseTensorEncodingAttr::print(DialectAsmPrinter &printer) const { 1190a292199SAart Bik // Print the struct-like storage in dictionary fashion. 1200a292199SAart Bik printer << "encoding<{ dimLevelType = [ "; 1210a292199SAart Bik for (unsigned i = 0, e = getDimLevelType().size(); i < e; i++) { 1220a292199SAart Bik switch (getDimLevelType()[i]) { 1230a292199SAart Bik case DimLevelType::Dense: 1240a292199SAart Bik printer << "\"dense\""; 1250a292199SAart Bik break; 1260a292199SAart Bik case DimLevelType::Compressed: 1270a292199SAart Bik printer << "\"compressed\""; 1280a292199SAart Bik break; 1290a292199SAart Bik case DimLevelType::Singleton: 1300a292199SAart Bik printer << "\"singleton\""; 1310a292199SAart Bik break; 1320a292199SAart Bik } 1330a292199SAart Bik if (i != e - 1) 1340a292199SAart Bik printer << ", "; 1350a292199SAart Bik } 1360a292199SAart Bik printer << " ]"; 1370a292199SAart Bik if (getDimOrdering()) 1380a292199SAart Bik printer << ", dimOrdering = affine_map<" << getDimOrdering() << ">"; 1390a292199SAart Bik printer << ", pointerBitWidth = " << getPointerBitWidth() 1400a292199SAart Bik << ", indexBitWidth = " << getIndexBitWidth() << " }>"; 1410a292199SAart Bik } 1420a292199SAart Bik 1430a292199SAart Bik LogicalResult SparseTensorEncodingAttr::verify( 1440a292199SAart Bik function_ref<InFlightDiagnostic()> emitError, 1450a292199SAart Bik ArrayRef<DimLevelType> dimLevelType, AffineMap dimOrdering, 1460a292199SAart Bik unsigned pointerBitWidth, unsigned indexBitWidth) { 1470a292199SAart Bik if (!acceptBitWidth(pointerBitWidth)) 1480a292199SAart Bik return emitError() << "unexpected pointer bitwidth: " << pointerBitWidth; 1490a292199SAart Bik if (!acceptBitWidth(indexBitWidth)) 1500a292199SAart Bik return emitError() << "unexpected index bitwidth: " << indexBitWidth; 1510a292199SAart Bik if (dimOrdering) { 1520a292199SAart Bik if (!dimOrdering.isPermutation()) 1530a292199SAart Bik return emitError() 1540a292199SAart Bik << "expected a permutation affine map for dimension ordering"; 1550a292199SAart Bik if (dimOrdering.getNumResults() != dimLevelType.size()) 1560a292199SAart Bik return emitError() << "unexpected mismatch in ordering and dimension " 1570a292199SAart Bik "level types size"; 1580a292199SAart Bik } 1590a292199SAart Bik return success(); 1600a292199SAart Bik } 1610a292199SAart Bik 1620a292199SAart Bik LogicalResult SparseTensorEncodingAttr::verifyEncoding( 1630a292199SAart Bik ArrayRef<int64_t> shape, Type elementType, 1640a292199SAart Bik function_ref<InFlightDiagnostic()> emitError) const { 1650a292199SAart Bik // Check structural integrity. 1660a292199SAart Bik if (failed(verify(emitError, getDimLevelType(), getDimOrdering(), 1670a292199SAart Bik getPointerBitWidth(), getIndexBitWidth()))) 1680a292199SAart Bik return failure(); 1690a292199SAart Bik // Check integrity with tensor type specifics. Dimension ordering is optional, 1700a292199SAart Bik // but we always should have dimension level types for the full rank. 1710a292199SAart Bik unsigned size = shape.size(); 1720a292199SAart Bik if (getDimOrdering() && getDimOrdering().getNumResults() != size) 1730a292199SAart Bik return emitError() << "expected an affine map of size " << size 1740a292199SAart Bik << " for dimension ordering"; 1750a292199SAart Bik if (getDimLevelType().size() != size) 1760a292199SAart Bik return emitError() << "expected an array of size " << size 1770a292199SAart Bik << " for dimension level types"; 1780a292199SAart Bik return success(); 1790a292199SAart Bik } 1800a292199SAart Bik 18196a23911SAart Bik SparseTensorEncodingAttr 18296a23911SAart Bik mlir::sparse_tensor::getSparseTensorEncoding(Type type) { 18396a23911SAart Bik if (auto ttp = type.dyn_cast<RankedTensorType>()) 18496a23911SAart Bik return ttp.getEncoding().dyn_cast_or_null<SparseTensorEncodingAttr>(); 18596a23911SAart Bik return nullptr; 18696a23911SAart Bik } 18796a23911SAart Bik 1880a292199SAart Bik //===----------------------------------------------------------------------===// 18996a23911SAart Bik // TensorDialect Operations. 19096a23911SAart Bik //===----------------------------------------------------------------------===// 19196a23911SAart Bik 19296a23911SAart Bik static LogicalResult isInBounds(Value dim, Value tensor) { 19396a23911SAart Bik if (auto constantOp = dim.getDefiningOp<ConstantOp>()) { 19496a23911SAart Bik unsigned d = constantOp.getValue().cast<IntegerAttr>().getInt(); 19596a23911SAart Bik if (d >= tensor.getType().cast<RankedTensorType>().getRank()) 19696a23911SAart Bik return failure(); 19796a23911SAart Bik } 19896a23911SAart Bik return success(); // in bounds, or symbolic 19996a23911SAart Bik } 20096a23911SAart Bik 20196a23911SAart Bik static LogicalResult isMatchingWidth(Value result, unsigned width) { 20296a23911SAart Bik Type etp = result.getType().cast<MemRefType>().getElementType(); 20396a23911SAart Bik if ((width == 0 && etp.isIndex()) || (width > 0 && etp.isInteger(width))) 20496a23911SAart Bik return success(); 20596a23911SAart Bik return failure(); 20696a23911SAart Bik } 20796a23911SAart Bik 20896a23911SAart Bik static LogicalResult verify(NewOp op) { 20996a23911SAart Bik if (!getSparseTensorEncoding(op.getResult().getType())) 21096a23911SAart Bik return op.emitError("expected a sparse tensor result"); 21196a23911SAart Bik return success(); 21296a23911SAart Bik } 21396a23911SAart Bik 21496a23911SAart Bik static LogicalResult verify(ToPointersOp op) { 21596a23911SAart Bik if (failed(isInBounds(op.dim(), op.tensor()))) 21696a23911SAart Bik return op.emitError("requested pointers dimension out of bounds"); 21796a23911SAart Bik if (auto e = getSparseTensorEncoding(op.tensor().getType())) { 21896a23911SAart Bik if (failed(isMatchingWidth(op.result(), e.getPointerBitWidth()))) 21996a23911SAart Bik return op.emitError("unexpected type for pointers"); 22096a23911SAart Bik return success(); 22196a23911SAart Bik } 22296a23911SAart Bik return op.emitError("expected a sparse tensor to get pointers"); 22396a23911SAart Bik } 22496a23911SAart Bik 22596a23911SAart Bik static LogicalResult verify(ToIndicesOp op) { 22696a23911SAart Bik if (failed(isInBounds(op.dim(), op.tensor()))) 22796a23911SAart Bik return op.emitError("requested indices dimension out of bounds"); 22896a23911SAart Bik if (auto e = getSparseTensorEncoding(op.tensor().getType())) { 22996a23911SAart Bik if (failed(isMatchingWidth(op.result(), e.getIndexBitWidth()))) 23096a23911SAart Bik return op.emitError("unexpected type for indices"); 23196a23911SAart Bik return success(); 23296a23911SAart Bik } 23396a23911SAart Bik return op.emitError("expected a sparse tensor to get indices"); 23496a23911SAart Bik } 23596a23911SAart Bik 23696a23911SAart Bik static LogicalResult verify(ToValuesOp op) { 23796a23911SAart Bik if (!getSparseTensorEncoding(op.tensor().getType())) 23896a23911SAart Bik return op.emitError("expected a sparse tensor to get values"); 23996a23911SAart Bik RankedTensorType ttp = op.tensor().getType().cast<RankedTensorType>(); 24096a23911SAart Bik MemRefType mtp = op.result().getType().cast<MemRefType>(); 24196a23911SAart Bik if (ttp.getElementType() != mtp.getElementType()) 24296a23911SAart Bik return op.emitError("unexpected mismatch in element types"); 24396a23911SAart Bik return success(); 24496a23911SAart Bik } 24596a23911SAart Bik 246727a63e0SAart Bik static LogicalResult verify(ToTensorOp op) { 247*36b66ab9SAart Bik if (!getSparseTensorEncoding(op.result().getType())) 248727a63e0SAart Bik return op.emitError("expected a sparse tensor as result"); 249*36b66ab9SAart Bik return success(); 250727a63e0SAart Bik } 251727a63e0SAart Bik 25296a23911SAart Bik //===----------------------------------------------------------------------===// 25396a23911SAart Bik // TensorDialect Methods. 2540a292199SAart Bik //===----------------------------------------------------------------------===// 2550a292199SAart Bik 256319072f4SAart Bik void SparseTensorDialect::initialize() { 2570a292199SAart Bik addAttributes< 2580a292199SAart Bik #define GET_ATTRDEF_LIST 2590a292199SAart Bik #include "mlir/Dialect/SparseTensor/IR/SparseTensorAttrDefs.cpp.inc" 2600a292199SAart Bik >(); 261319072f4SAart Bik addOperations< 262319072f4SAart Bik #define GET_OP_LIST 263319072f4SAart Bik #include "mlir/Dialect/SparseTensor/IR/SparseTensorOps.cpp.inc" 264319072f4SAart Bik >(); 265319072f4SAart Bik } 266319072f4SAart Bik 267319072f4SAart Bik #define GET_OP_CLASSES 268319072f4SAart Bik #include "mlir/Dialect/SparseTensor/IR/SparseTensorOps.cpp.inc" 2690a292199SAart Bik 2700a292199SAart Bik Attribute SparseTensorDialect::parseAttribute(DialectAsmParser &parser, 2710a292199SAart Bik Type type) const { 2720a292199SAart Bik StringRef attrTag; 2730a292199SAart Bik if (failed(parser.parseKeyword(&attrTag))) 2740a292199SAart Bik return Attribute(); 2750a292199SAart Bik Attribute attr; 2760a292199SAart Bik auto parseResult = 2770a292199SAart Bik generatedAttributeParser(getContext(), parser, attrTag, type, attr); 2780a292199SAart Bik if (parseResult.hasValue()) 2790a292199SAart Bik return attr; 2800a292199SAart Bik parser.emitError(parser.getNameLoc(), "unknown sparse tensor attribute"); 2810a292199SAart Bik return Attribute(); 2820a292199SAart Bik } 2830a292199SAart Bik 2840a292199SAart Bik void SparseTensorDialect::printAttribute(Attribute attr, 2850a292199SAart Bik DialectAsmPrinter &printer) const { 2860a292199SAart Bik if (succeeded(generatedAttributePrinter(attr, printer))) 2870a292199SAart Bik return; 2880a292199SAart Bik } 289