185b8d03eSwren romano //===- CodegenUtils.cpp - Utilities for generating MLIR -------------------===// 285b8d03eSwren romano // 385b8d03eSwren romano // Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions. 485b8d03eSwren romano // See https://llvm.org/LICENSE.txt for license information. 585b8d03eSwren romano // SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception 685b8d03eSwren romano // 785b8d03eSwren romano //===----------------------------------------------------------------------===// 885b8d03eSwren romano 985b8d03eSwren romano #include "CodegenUtils.h" 1085b8d03eSwren romano 1185b8d03eSwren romano #include "mlir/IR/Types.h" 1285b8d03eSwren romano #include "mlir/IR/Value.h" 1385b8d03eSwren romano 1485b8d03eSwren romano using namespace mlir; 1585b8d03eSwren romano using namespace mlir::sparse_tensor; 1685b8d03eSwren romano 1785b8d03eSwren romano //===----------------------------------------------------------------------===// 1885b8d03eSwren romano // ExecutionEngine/SparseTensorUtils helper functions. 1985b8d03eSwren romano //===----------------------------------------------------------------------===// 2085b8d03eSwren romano 2185b8d03eSwren romano OverheadType mlir::sparse_tensor::overheadTypeEncoding(unsigned width) { 2285b8d03eSwren romano switch (width) { 23bc04a470Swren romano case 64: 2485b8d03eSwren romano return OverheadType::kU64; 2585b8d03eSwren romano case 32: 2685b8d03eSwren romano return OverheadType::kU32; 2785b8d03eSwren romano case 16: 2885b8d03eSwren romano return OverheadType::kU16; 2985b8d03eSwren romano case 8: 3085b8d03eSwren romano return OverheadType::kU8; 31bc04a470Swren romano case 0: 32bc04a470Swren romano return OverheadType::kIndex; 3385b8d03eSwren romano } 34bc04a470Swren romano llvm_unreachable("Unsupported overhead bitwidth"); 3585b8d03eSwren romano } 3685b8d03eSwren romano 37c9489225Swren romano OverheadType mlir::sparse_tensor::overheadTypeEncoding(Type tp) { 38c9489225Swren romano if (tp.isIndex()) 39c9489225Swren romano return OverheadType::kIndex; 40c9489225Swren romano if (auto intTp = tp.dyn_cast<IntegerType>()) 41c9489225Swren romano return overheadTypeEncoding(intTp.getWidth()); 42c9489225Swren romano llvm_unreachable("Unknown overhead type"); 43c9489225Swren romano } 44c9489225Swren romano 4585b8d03eSwren romano Type mlir::sparse_tensor::getOverheadType(Builder &builder, OverheadType ot) { 4685b8d03eSwren romano switch (ot) { 47bc04a470Swren romano case OverheadType::kIndex: 48bc04a470Swren romano return builder.getIndexType(); 4985b8d03eSwren romano case OverheadType::kU64: 5085b8d03eSwren romano return builder.getIntegerType(64); 5185b8d03eSwren romano case OverheadType::kU32: 5285b8d03eSwren romano return builder.getIntegerType(32); 5385b8d03eSwren romano case OverheadType::kU16: 5485b8d03eSwren romano return builder.getIntegerType(16); 5585b8d03eSwren romano case OverheadType::kU8: 5685b8d03eSwren romano return builder.getIntegerType(8); 5785b8d03eSwren romano } 5885b8d03eSwren romano llvm_unreachable("Unknown OverheadType"); 5985b8d03eSwren romano } 6085b8d03eSwren romano 61ebc84664Swren romano OverheadType mlir::sparse_tensor::pointerOverheadTypeEncoding( 62ebc84664Swren romano const SparseTensorEncodingAttr &enc) { 63ebc84664Swren romano return overheadTypeEncoding(enc.getPointerBitWidth()); 64ebc84664Swren romano } 65ebc84664Swren romano 66ebc84664Swren romano OverheadType mlir::sparse_tensor::indexOverheadTypeEncoding( 67ebc84664Swren romano const SparseTensorEncodingAttr &enc) { 68ebc84664Swren romano return overheadTypeEncoding(enc.getIndexBitWidth()); 69ebc84664Swren romano } 70ebc84664Swren romano 7185b8d03eSwren romano Type mlir::sparse_tensor::getPointerOverheadType( 7285b8d03eSwren romano Builder &builder, const SparseTensorEncodingAttr &enc) { 73ebc84664Swren romano return getOverheadType(builder, pointerOverheadTypeEncoding(enc)); 7485b8d03eSwren romano } 7585b8d03eSwren romano 7685b8d03eSwren romano Type mlir::sparse_tensor::getIndexOverheadType( 7785b8d03eSwren romano Builder &builder, const SparseTensorEncodingAttr &enc) { 78ebc84664Swren romano return getOverheadType(builder, indexOverheadTypeEncoding(enc)); 7985b8d03eSwren romano } 8085b8d03eSwren romano 81*98e142cdSwren romano // TODO: Adjust the naming convention for the constructors of `OverheadType` 82*98e142cdSwren romano // and the function-suffix for `kIndex` so we can use the `FOREVERY_O` 83*98e142cdSwren romano // x-macro here instead of `FOREVERY_FIXED_O`; to further reduce the 84*98e142cdSwren romano // possibility of typo bugs or things getting out of sync. 85c9489225Swren romano StringRef mlir::sparse_tensor::overheadTypeFunctionSuffix(OverheadType ot) { 86c9489225Swren romano switch (ot) { 87c9489225Swren romano case OverheadType::kIndex: 88c9489225Swren romano return ""; 89*98e142cdSwren romano #define CASE(ONAME, O) \ 90*98e142cdSwren romano case OverheadType::kU##ONAME: \ 91*98e142cdSwren romano return #ONAME; 92*98e142cdSwren romano FOREVERY_FIXED_O(CASE) 93*98e142cdSwren romano #undef CASE 94c9489225Swren romano } 95c9489225Swren romano llvm_unreachable("Unknown OverheadType"); 96c9489225Swren romano } 97c9489225Swren romano 98c9489225Swren romano StringRef mlir::sparse_tensor::overheadTypeFunctionSuffix(Type tp) { 99c9489225Swren romano return overheadTypeFunctionSuffix(overheadTypeEncoding(tp)); 100c9489225Swren romano } 101c9489225Swren romano 10285b8d03eSwren romano PrimaryType mlir::sparse_tensor::primaryTypeEncoding(Type elemTp) { 10385b8d03eSwren romano if (elemTp.isF64()) 10485b8d03eSwren romano return PrimaryType::kF64; 10585b8d03eSwren romano if (elemTp.isF32()) 10685b8d03eSwren romano return PrimaryType::kF32; 10785b8d03eSwren romano if (elemTp.isInteger(64)) 10885b8d03eSwren romano return PrimaryType::kI64; 10985b8d03eSwren romano if (elemTp.isInteger(32)) 11085b8d03eSwren romano return PrimaryType::kI32; 11185b8d03eSwren romano if (elemTp.isInteger(16)) 11285b8d03eSwren romano return PrimaryType::kI16; 11385b8d03eSwren romano if (elemTp.isInteger(8)) 11485b8d03eSwren romano return PrimaryType::kI8; 115736c1b66SAart Bik if (auto complexTp = elemTp.dyn_cast<ComplexType>()) { 116736c1b66SAart Bik auto complexEltTp = complexTp.getElementType(); 117736c1b66SAart Bik if (complexEltTp.isF64()) 118736c1b66SAart Bik return PrimaryType::kC64; 119736c1b66SAart Bik if (complexEltTp.isF32()) 120736c1b66SAart Bik return PrimaryType::kC32; 121736c1b66SAart Bik } 12285b8d03eSwren romano llvm_unreachable("Unknown primary type"); 12385b8d03eSwren romano } 12485b8d03eSwren romano 125c9489225Swren romano StringRef mlir::sparse_tensor::primaryTypeFunctionSuffix(PrimaryType pt) { 126c9489225Swren romano switch (pt) { 127*98e142cdSwren romano #define CASE(VNAME, V) \ 128*98e142cdSwren romano case PrimaryType::k##VNAME: \ 129*98e142cdSwren romano return #VNAME; 130*98e142cdSwren romano FOREVERY_V(CASE) 131*98e142cdSwren romano #undef CASE 132c9489225Swren romano } 133c9489225Swren romano llvm_unreachable("Unknown PrimaryType"); 134c9489225Swren romano } 135c9489225Swren romano 136c9489225Swren romano StringRef mlir::sparse_tensor::primaryTypeFunctionSuffix(Type elemTp) { 137c9489225Swren romano return primaryTypeFunctionSuffix(primaryTypeEncoding(elemTp)); 138c9489225Swren romano } 139c9489225Swren romano 14085b8d03eSwren romano DimLevelType mlir::sparse_tensor::dimLevelTypeEncoding( 14185b8d03eSwren romano SparseTensorEncodingAttr::DimLevelType dlt) { 14285b8d03eSwren romano switch (dlt) { 14385b8d03eSwren romano case SparseTensorEncodingAttr::DimLevelType::Dense: 14485b8d03eSwren romano return DimLevelType::kDense; 14585b8d03eSwren romano case SparseTensorEncodingAttr::DimLevelType::Compressed: 14685b8d03eSwren romano return DimLevelType::kCompressed; 14785b8d03eSwren romano case SparseTensorEncodingAttr::DimLevelType::Singleton: 14885b8d03eSwren romano return DimLevelType::kSingleton; 14985b8d03eSwren romano } 15085b8d03eSwren romano llvm_unreachable("Unknown SparseTensorEncodingAttr::DimLevelType"); 15185b8d03eSwren romano } 15285b8d03eSwren romano 15385b8d03eSwren romano //===----------------------------------------------------------------------===// 15485b8d03eSwren romano // Misc code generators. 15585b8d03eSwren romano //===----------------------------------------------------------------------===// 15685b8d03eSwren romano 15785b8d03eSwren romano mlir::Attribute mlir::sparse_tensor::getOneAttr(Builder &builder, Type tp) { 15885b8d03eSwren romano if (tp.isa<FloatType>()) 15985b8d03eSwren romano return builder.getFloatAttr(tp, 1.0); 16085b8d03eSwren romano if (tp.isa<IndexType>()) 16185b8d03eSwren romano return builder.getIndexAttr(1); 16285b8d03eSwren romano if (auto intTp = tp.dyn_cast<IntegerType>()) 16385b8d03eSwren romano return builder.getIntegerAttr(tp, APInt(intTp.getWidth(), 1)); 16485b8d03eSwren romano if (tp.isa<RankedTensorType, VectorType>()) { 16585b8d03eSwren romano auto shapedTp = tp.cast<ShapedType>(); 16685b8d03eSwren romano if (auto one = getOneAttr(builder, shapedTp.getElementType())) 16785b8d03eSwren romano return DenseElementsAttr::get(shapedTp, one); 16885b8d03eSwren romano } 16985b8d03eSwren romano llvm_unreachable("Unsupported attribute type"); 17085b8d03eSwren romano } 17185b8d03eSwren romano 17285b8d03eSwren romano Value mlir::sparse_tensor::genIsNonzero(OpBuilder &builder, mlir::Location loc, 17385b8d03eSwren romano Value v) { 17485b8d03eSwren romano Type tp = v.getType(); 17585b8d03eSwren romano Value zero = constantZero(builder, loc, tp); 17685b8d03eSwren romano if (tp.isa<FloatType>()) 17785b8d03eSwren romano return builder.create<arith::CmpFOp>(loc, arith::CmpFPredicate::UNE, v, 17885b8d03eSwren romano zero); 17985b8d03eSwren romano if (tp.isIntOrIndex()) 18085b8d03eSwren romano return builder.create<arith::CmpIOp>(loc, arith::CmpIPredicate::ne, v, 18185b8d03eSwren romano zero); 18228b6d412SAart Bik if (tp.dyn_cast<ComplexType>()) 18328b6d412SAart Bik return builder.create<complex::NotEqualOp>(loc, v, zero); 18485b8d03eSwren romano llvm_unreachable("Non-numeric type"); 18585b8d03eSwren romano } 186