1044d5b5dSValentin Clement //===-- CodeGen.cpp -- bridge to lower to LLVM ----------------------------===// 2044d5b5dSValentin Clement // 3044d5b5dSValentin Clement // Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions. 4044d5b5dSValentin Clement // See https://llvm.org/LICENSE.txt for license information. 5044d5b5dSValentin Clement // SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception 6044d5b5dSValentin Clement // 7044d5b5dSValentin Clement //===----------------------------------------------------------------------===// 8044d5b5dSValentin Clement // 9044d5b5dSValentin Clement // Coding style: https://mlir.llvm.org/getting_started/DeveloperGuide/ 10044d5b5dSValentin Clement // 11044d5b5dSValentin Clement //===----------------------------------------------------------------------===// 12044d5b5dSValentin Clement 13044d5b5dSValentin Clement #include "flang/Optimizer/CodeGen/CodeGen.h" 14044d5b5dSValentin Clement #include "PassDetail.h" 15044d5b5dSValentin Clement #include "flang/Optimizer/Dialect/FIROps.h" 16044d5b5dSValentin Clement #include "flang/Optimizer/Dialect/FIRType.h" 17044d5b5dSValentin Clement #include "mlir/Conversion/ArithmeticToLLVM/ArithmeticToLLVM.h" 18044d5b5dSValentin Clement #include "mlir/Conversion/LLVMCommon/Pattern.h" 19044d5b5dSValentin Clement #include "mlir/Conversion/LLVMCommon/TypeConverter.h" 20044d5b5dSValentin Clement #include "mlir/Conversion/StandardToLLVM/ConvertStandardToLLVM.h" 21044d5b5dSValentin Clement #include "mlir/IR/BuiltinTypes.h" 223ae8e442SValentin Clement #include "mlir/IR/Matchers.h" 23044d5b5dSValentin Clement #include "mlir/Pass/Pass.h" 24044d5b5dSValentin Clement #include "llvm/ADT/ArrayRef.h" 25044d5b5dSValentin Clement 26044d5b5dSValentin Clement #define DEBUG_TYPE "flang-codegen" 27044d5b5dSValentin Clement 28044d5b5dSValentin Clement // fir::LLVMTypeConverter for converting to LLVM IR dialect types. 29044d5b5dSValentin Clement #include "TypeConverter.h" 30044d5b5dSValentin Clement 31044d5b5dSValentin Clement namespace { 32044d5b5dSValentin Clement /// FIR conversion pattern template 33044d5b5dSValentin Clement template <typename FromOp> 34044d5b5dSValentin Clement class FIROpConversion : public mlir::ConvertOpToLLVMPattern<FromOp> { 35044d5b5dSValentin Clement public: 36044d5b5dSValentin Clement explicit FIROpConversion(fir::LLVMTypeConverter &lowering) 37044d5b5dSValentin Clement : mlir::ConvertOpToLLVMPattern<FromOp>(lowering) {} 38044d5b5dSValentin Clement 39044d5b5dSValentin Clement protected: 40044d5b5dSValentin Clement mlir::Type convertType(mlir::Type ty) const { 41044d5b5dSValentin Clement return lowerTy().convertType(ty); 42044d5b5dSValentin Clement } 43044d5b5dSValentin Clement 44044d5b5dSValentin Clement fir::LLVMTypeConverter &lowerTy() const { 45044d5b5dSValentin Clement return *static_cast<fir::LLVMTypeConverter *>(this->getTypeConverter()); 46044d5b5dSValentin Clement } 47044d5b5dSValentin Clement }; 48044d5b5dSValentin Clement 493ae8e442SValentin Clement /// FIR conversion pattern template 503ae8e442SValentin Clement template <typename FromOp> 513ae8e442SValentin Clement class FIROpAndTypeConversion : public FIROpConversion<FromOp> { 523ae8e442SValentin Clement public: 533ae8e442SValentin Clement using FIROpConversion<FromOp>::FIROpConversion; 543ae8e442SValentin Clement using OpAdaptor = typename FromOp::Adaptor; 553ae8e442SValentin Clement 563ae8e442SValentin Clement mlir::LogicalResult 573ae8e442SValentin Clement matchAndRewrite(FromOp op, OpAdaptor adaptor, 583ae8e442SValentin Clement mlir::ConversionPatternRewriter &rewriter) const final { 593ae8e442SValentin Clement mlir::Type ty = this->convertType(op.getType()); 603ae8e442SValentin Clement return doRewrite(op, ty, adaptor, rewriter); 613ae8e442SValentin Clement } 623ae8e442SValentin Clement 633ae8e442SValentin Clement virtual mlir::LogicalResult 643ae8e442SValentin Clement doRewrite(FromOp addr, mlir::Type ty, OpAdaptor adaptor, 653ae8e442SValentin Clement mlir::ConversionPatternRewriter &rewriter) const = 0; 663ae8e442SValentin Clement }; 673ae8e442SValentin Clement 680c4a7a52SValentin Clement // Lower `fir.address_of` operation to `llvm.address_of` operation. 69044d5b5dSValentin Clement struct AddrOfOpConversion : public FIROpConversion<fir::AddrOfOp> { 70044d5b5dSValentin Clement using FIROpConversion::FIROpConversion; 71044d5b5dSValentin Clement 72044d5b5dSValentin Clement mlir::LogicalResult 73044d5b5dSValentin Clement matchAndRewrite(fir::AddrOfOp addr, OpAdaptor adaptor, 74044d5b5dSValentin Clement mlir::ConversionPatternRewriter &rewriter) const override { 75044d5b5dSValentin Clement auto ty = convertType(addr.getType()); 76044d5b5dSValentin Clement rewriter.replaceOpWithNewOp<mlir::LLVM::AddressOfOp>( 77044d5b5dSValentin Clement addr, ty, addr.symbol().getRootReference().getValue()); 78044d5b5dSValentin Clement return success(); 79044d5b5dSValentin Clement } 80044d5b5dSValentin Clement }; 81044d5b5dSValentin Clement 82*ddd11b9aSAndrzej Warzynski // `fir.call` -> `llvm.call` 83*ddd11b9aSAndrzej Warzynski struct CallOpConversion : public FIROpConversion<fir::CallOp> { 84*ddd11b9aSAndrzej Warzynski using FIROpConversion::FIROpConversion; 85*ddd11b9aSAndrzej Warzynski 86*ddd11b9aSAndrzej Warzynski mlir::LogicalResult 87*ddd11b9aSAndrzej Warzynski matchAndRewrite(fir::CallOp call, OpAdaptor adaptor, 88*ddd11b9aSAndrzej Warzynski mlir::ConversionPatternRewriter &rewriter) const override { 89*ddd11b9aSAndrzej Warzynski SmallVector<mlir::Type> resultTys; 90*ddd11b9aSAndrzej Warzynski for (auto r : call.getResults()) 91*ddd11b9aSAndrzej Warzynski resultTys.push_back(convertType(r.getType())); 92*ddd11b9aSAndrzej Warzynski rewriter.replaceOpWithNewOp<mlir::LLVM::CallOp>( 93*ddd11b9aSAndrzej Warzynski call, resultTys, adaptor.getOperands(), call->getAttrs()); 94*ddd11b9aSAndrzej Warzynski return success(); 95*ddd11b9aSAndrzej Warzynski } 96*ddd11b9aSAndrzej Warzynski }; 97*ddd11b9aSAndrzej Warzynski 980c4a7a52SValentin Clement /// Lower `fir.has_value` operation to `llvm.return` operation. 99044d5b5dSValentin Clement struct HasValueOpConversion : public FIROpConversion<fir::HasValueOp> { 100044d5b5dSValentin Clement using FIROpConversion::FIROpConversion; 101044d5b5dSValentin Clement 102044d5b5dSValentin Clement mlir::LogicalResult 103044d5b5dSValentin Clement matchAndRewrite(fir::HasValueOp op, OpAdaptor adaptor, 104044d5b5dSValentin Clement mlir::ConversionPatternRewriter &rewriter) const override { 105044d5b5dSValentin Clement rewriter.replaceOpWithNewOp<LLVM::ReturnOp>(op, adaptor.getOperands()); 106044d5b5dSValentin Clement return success(); 107044d5b5dSValentin Clement } 108044d5b5dSValentin Clement }; 109044d5b5dSValentin Clement 1100c4a7a52SValentin Clement /// Lower `fir.global` operation to `llvm.global` operation. 1110c4a7a52SValentin Clement /// `fir.insert_on_range` operations are replaced with constant dense attribute 1120c4a7a52SValentin Clement /// if they are applied on the full range. 113044d5b5dSValentin Clement struct GlobalOpConversion : public FIROpConversion<fir::GlobalOp> { 114044d5b5dSValentin Clement using FIROpConversion::FIROpConversion; 115044d5b5dSValentin Clement 116044d5b5dSValentin Clement mlir::LogicalResult 117044d5b5dSValentin Clement matchAndRewrite(fir::GlobalOp global, OpAdaptor adaptor, 118044d5b5dSValentin Clement mlir::ConversionPatternRewriter &rewriter) const override { 119044d5b5dSValentin Clement auto tyAttr = convertType(global.getType()); 120044d5b5dSValentin Clement if (global.getType().isa<fir::BoxType>()) 121044d5b5dSValentin Clement tyAttr = tyAttr.cast<mlir::LLVM::LLVMPointerType>().getElementType(); 122044d5b5dSValentin Clement auto loc = global.getLoc(); 123044d5b5dSValentin Clement mlir::Attribute initAttr{}; 124044d5b5dSValentin Clement if (global.initVal()) 125044d5b5dSValentin Clement initAttr = global.initVal().getValue(); 126044d5b5dSValentin Clement auto linkage = convertLinkage(global.linkName()); 127044d5b5dSValentin Clement auto isConst = global.constant().hasValue(); 128044d5b5dSValentin Clement auto g = rewriter.create<mlir::LLVM::GlobalOp>( 129044d5b5dSValentin Clement loc, tyAttr, isConst, linkage, global.sym_name(), initAttr); 130044d5b5dSValentin Clement auto &gr = g.getInitializerRegion(); 131044d5b5dSValentin Clement rewriter.inlineRegionBefore(global.region(), gr, gr.end()); 132044d5b5dSValentin Clement if (!gr.empty()) { 133044d5b5dSValentin Clement // Replace insert_on_range with a constant dense attribute if the 134044d5b5dSValentin Clement // initialization is on the full range. 135044d5b5dSValentin Clement auto insertOnRangeOps = gr.front().getOps<fir::InsertOnRangeOp>(); 136044d5b5dSValentin Clement for (auto insertOp : insertOnRangeOps) { 137044d5b5dSValentin Clement if (isFullRange(insertOp.coor(), insertOp.getType())) { 138044d5b5dSValentin Clement auto seqTyAttr = convertType(insertOp.getType()); 139044d5b5dSValentin Clement auto *op = insertOp.val().getDefiningOp(); 140044d5b5dSValentin Clement auto constant = mlir::dyn_cast<mlir::arith::ConstantOp>(op); 141044d5b5dSValentin Clement if (!constant) { 142044d5b5dSValentin Clement auto convertOp = mlir::dyn_cast<fir::ConvertOp>(op); 143044d5b5dSValentin Clement if (!convertOp) 144044d5b5dSValentin Clement continue; 145044d5b5dSValentin Clement constant = cast<mlir::arith::ConstantOp>( 146044d5b5dSValentin Clement convertOp.value().getDefiningOp()); 147044d5b5dSValentin Clement } 148044d5b5dSValentin Clement mlir::Type vecType = mlir::VectorType::get( 149044d5b5dSValentin Clement insertOp.getType().getShape(), constant.getType()); 150044d5b5dSValentin Clement auto denseAttr = mlir::DenseElementsAttr::get( 151044d5b5dSValentin Clement vecType.cast<ShapedType>(), constant.value()); 152044d5b5dSValentin Clement rewriter.setInsertionPointAfter(insertOp); 153044d5b5dSValentin Clement rewriter.replaceOpWithNewOp<mlir::arith::ConstantOp>( 154044d5b5dSValentin Clement insertOp, seqTyAttr, denseAttr); 155044d5b5dSValentin Clement } 156044d5b5dSValentin Clement } 157044d5b5dSValentin Clement } 158044d5b5dSValentin Clement rewriter.eraseOp(global); 159044d5b5dSValentin Clement return success(); 160044d5b5dSValentin Clement } 161044d5b5dSValentin Clement 162044d5b5dSValentin Clement bool isFullRange(mlir::ArrayAttr indexes, fir::SequenceType seqTy) const { 163044d5b5dSValentin Clement auto extents = seqTy.getShape(); 164044d5b5dSValentin Clement if (indexes.size() / 2 != extents.size()) 165044d5b5dSValentin Clement return false; 166044d5b5dSValentin Clement for (unsigned i = 0; i < indexes.size(); i += 2) { 167044d5b5dSValentin Clement if (indexes[i].cast<IntegerAttr>().getInt() != 0) 168044d5b5dSValentin Clement return false; 169044d5b5dSValentin Clement if (indexes[i + 1].cast<IntegerAttr>().getInt() != extents[i / 2] - 1) 170044d5b5dSValentin Clement return false; 171044d5b5dSValentin Clement } 172044d5b5dSValentin Clement return true; 173044d5b5dSValentin Clement } 174044d5b5dSValentin Clement 1750c4a7a52SValentin Clement // TODO: String comparaison should be avoided. Replace linkName with an 1760c4a7a52SValentin Clement // enumeration. 177044d5b5dSValentin Clement mlir::LLVM::Linkage convertLinkage(Optional<StringRef> optLinkage) const { 178044d5b5dSValentin Clement if (optLinkage.hasValue()) { 179044d5b5dSValentin Clement auto name = optLinkage.getValue(); 180044d5b5dSValentin Clement if (name == "internal") 181044d5b5dSValentin Clement return mlir::LLVM::Linkage::Internal; 182044d5b5dSValentin Clement if (name == "linkonce") 183044d5b5dSValentin Clement return mlir::LLVM::Linkage::Linkonce; 184044d5b5dSValentin Clement if (name == "common") 185044d5b5dSValentin Clement return mlir::LLVM::Linkage::Common; 186044d5b5dSValentin Clement if (name == "weak") 187044d5b5dSValentin Clement return mlir::LLVM::Linkage::Weak; 188044d5b5dSValentin Clement } 189044d5b5dSValentin Clement return mlir::LLVM::Linkage::External; 190044d5b5dSValentin Clement } 191044d5b5dSValentin Clement }; 192044d5b5dSValentin Clement 1938c239909SValentin Clement template <typename OP> 1948c239909SValentin Clement void selectMatchAndRewrite(fir::LLVMTypeConverter &lowering, OP select, 1958c239909SValentin Clement typename OP::Adaptor adaptor, 1968c239909SValentin Clement mlir::ConversionPatternRewriter &rewriter) { 1978c239909SValentin Clement unsigned conds = select.getNumConditions(); 1988c239909SValentin Clement auto cases = select.getCases().getValue(); 1998c239909SValentin Clement mlir::Value selector = adaptor.selector(); 2008c239909SValentin Clement auto loc = select.getLoc(); 2018c239909SValentin Clement assert(conds > 0 && "select must have cases"); 2028c239909SValentin Clement 2038c239909SValentin Clement llvm::SmallVector<mlir::Block *> destinations; 2048c239909SValentin Clement llvm::SmallVector<mlir::ValueRange> destinationsOperands; 2058c239909SValentin Clement mlir::Block *defaultDestination; 2068c239909SValentin Clement mlir::ValueRange defaultOperands; 2078c239909SValentin Clement llvm::SmallVector<int32_t> caseValues; 2088c239909SValentin Clement 2098c239909SValentin Clement for (unsigned t = 0; t != conds; ++t) { 2108c239909SValentin Clement mlir::Block *dest = select.getSuccessor(t); 2118c239909SValentin Clement auto destOps = select.getSuccessorOperands(adaptor.getOperands(), t); 2128c239909SValentin Clement const mlir::Attribute &attr = cases[t]; 2138c239909SValentin Clement if (auto intAttr = attr.template dyn_cast<mlir::IntegerAttr>()) { 2148c239909SValentin Clement destinations.push_back(dest); 2158c239909SValentin Clement destinationsOperands.push_back(destOps.hasValue() ? *destOps 2168c239909SValentin Clement : ValueRange()); 2178c239909SValentin Clement caseValues.push_back(intAttr.getInt()); 2188c239909SValentin Clement continue; 2198c239909SValentin Clement } 2208c239909SValentin Clement assert(attr.template dyn_cast_or_null<mlir::UnitAttr>()); 2218c239909SValentin Clement assert((t + 1 == conds) && "unit must be last"); 2228c239909SValentin Clement defaultDestination = dest; 2238c239909SValentin Clement defaultOperands = destOps.hasValue() ? *destOps : ValueRange(); 2248c239909SValentin Clement } 2258c239909SValentin Clement 2268c239909SValentin Clement // LLVM::SwitchOp takes a i32 type for the selector. 2278c239909SValentin Clement if (select.getSelector().getType() != rewriter.getI32Type()) 2288c239909SValentin Clement selector = 2298c239909SValentin Clement rewriter.create<LLVM::TruncOp>(loc, rewriter.getI32Type(), selector); 2308c239909SValentin Clement 2318c239909SValentin Clement rewriter.replaceOpWithNewOp<mlir::LLVM::SwitchOp>( 2328c239909SValentin Clement select, selector, 2338c239909SValentin Clement /*defaultDestination=*/defaultDestination, 2348c239909SValentin Clement /*defaultOperands=*/defaultOperands, 2358c239909SValentin Clement /*caseValues=*/caseValues, 2368c239909SValentin Clement /*caseDestinations=*/destinations, 2378c239909SValentin Clement /*caseOperands=*/destinationsOperands, 2388c239909SValentin Clement /*branchWeights=*/ArrayRef<int32_t>()); 2398c239909SValentin Clement } 2408c239909SValentin Clement 2418c239909SValentin Clement /// conversion of fir::SelectOp to an if-then-else ladder 2428c239909SValentin Clement struct SelectOpConversion : public FIROpConversion<fir::SelectOp> { 2438c239909SValentin Clement using FIROpConversion::FIROpConversion; 2448c239909SValentin Clement 2458c239909SValentin Clement mlir::LogicalResult 2468c239909SValentin Clement matchAndRewrite(fir::SelectOp op, OpAdaptor adaptor, 2478c239909SValentin Clement mlir::ConversionPatternRewriter &rewriter) const override { 2488c239909SValentin Clement selectMatchAndRewrite<fir::SelectOp>(lowerTy(), op, adaptor, rewriter); 2498c239909SValentin Clement return success(); 2508c239909SValentin Clement } 2518c239909SValentin Clement }; 2528c239909SValentin Clement 2538c239909SValentin Clement /// conversion of fir::SelectRankOp to an if-then-else ladder 2548c239909SValentin Clement struct SelectRankOpConversion : public FIROpConversion<fir::SelectRankOp> { 2558c239909SValentin Clement using FIROpConversion::FIROpConversion; 2568c239909SValentin Clement 2578c239909SValentin Clement mlir::LogicalResult 2588c239909SValentin Clement matchAndRewrite(fir::SelectRankOp op, OpAdaptor adaptor, 2598c239909SValentin Clement mlir::ConversionPatternRewriter &rewriter) const override { 2608c239909SValentin Clement selectMatchAndRewrite<fir::SelectRankOp>(lowerTy(), op, adaptor, rewriter); 2618c239909SValentin Clement return success(); 2628c239909SValentin Clement } 2638c239909SValentin Clement }; 2648c239909SValentin Clement 265044d5b5dSValentin Clement // convert to LLVM IR dialect `undef` 266044d5b5dSValentin Clement struct UndefOpConversion : public FIROpConversion<fir::UndefOp> { 267044d5b5dSValentin Clement using FIROpConversion::FIROpConversion; 268044d5b5dSValentin Clement 269044d5b5dSValentin Clement mlir::LogicalResult 270044d5b5dSValentin Clement matchAndRewrite(fir::UndefOp undef, OpAdaptor, 271044d5b5dSValentin Clement mlir::ConversionPatternRewriter &rewriter) const override { 272044d5b5dSValentin Clement rewriter.replaceOpWithNewOp<mlir::LLVM::UndefOp>( 273044d5b5dSValentin Clement undef, convertType(undef.getType())); 274044d5b5dSValentin Clement return success(); 275044d5b5dSValentin Clement } 276044d5b5dSValentin Clement }; 277a7a61359SValentin Clement 27832e08248SAndrzej Warzynski // convert to LLVM IR dialect `unreachable` 27932e08248SAndrzej Warzynski struct UnreachableOpConversion : public FIROpConversion<fir::UnreachableOp> { 28032e08248SAndrzej Warzynski using FIROpConversion::FIROpConversion; 28132e08248SAndrzej Warzynski 28232e08248SAndrzej Warzynski mlir::LogicalResult 28332e08248SAndrzej Warzynski matchAndRewrite(fir::UnreachableOp unreach, OpAdaptor adaptor, 28432e08248SAndrzej Warzynski mlir::ConversionPatternRewriter &rewriter) const override { 28532e08248SAndrzej Warzynski rewriter.replaceOpWithNewOp<mlir::LLVM::UnreachableOp>(unreach); 28632e08248SAndrzej Warzynski return success(); 28732e08248SAndrzej Warzynski } 28832e08248SAndrzej Warzynski }; 28932e08248SAndrzej Warzynski 290a7a61359SValentin Clement struct ZeroOpConversion : public FIROpConversion<fir::ZeroOp> { 291a7a61359SValentin Clement using FIROpConversion::FIROpConversion; 292a7a61359SValentin Clement 293a7a61359SValentin Clement mlir::LogicalResult 294a7a61359SValentin Clement matchAndRewrite(fir::ZeroOp zero, OpAdaptor, 295a7a61359SValentin Clement mlir::ConversionPatternRewriter &rewriter) const override { 296a7a61359SValentin Clement auto ty = convertType(zero.getType()); 297a7a61359SValentin Clement if (ty.isa<mlir::LLVM::LLVMPointerType>()) { 298a7a61359SValentin Clement rewriter.replaceOpWithNewOp<mlir::LLVM::NullOp>(zero, ty); 299a7a61359SValentin Clement } else if (ty.isa<mlir::IntegerType>()) { 300a7a61359SValentin Clement rewriter.replaceOpWithNewOp<mlir::LLVM::ConstantOp>( 301a7a61359SValentin Clement zero, ty, mlir::IntegerAttr::get(zero.getType(), 0)); 302a7a61359SValentin Clement } else if (mlir::LLVM::isCompatibleFloatingPointType(ty)) { 303a7a61359SValentin Clement rewriter.replaceOpWithNewOp<mlir::LLVM::ConstantOp>( 304a7a61359SValentin Clement zero, ty, mlir::FloatAttr::get(zero.getType(), 0.0)); 305a7a61359SValentin Clement } else { 306a7a61359SValentin Clement // TODO: create ConstantAggregateZero for FIR aggregate/array types. 30752d813edSValentin Clement return rewriter.notifyMatchFailure( 30852d813edSValentin Clement zero, 309a7a61359SValentin Clement "conversion of fir.zero with aggregate type not implemented yet"); 310a7a61359SValentin Clement } 311a7a61359SValentin Clement return success(); 312a7a61359SValentin Clement } 313a7a61359SValentin Clement }; 31432e08248SAndrzej Warzynski 31554c56347SValentin Clement // Code shared between insert_value and extract_value Ops. 31654c56347SValentin Clement struct ValueOpCommon { 31754c56347SValentin Clement // Translate the arguments pertaining to any multidimensional array to 31854c56347SValentin Clement // row-major order for LLVM-IR. 31954c56347SValentin Clement static void toRowMajor(SmallVectorImpl<mlir::Attribute> &attrs, 32054c56347SValentin Clement mlir::Type ty) { 32154c56347SValentin Clement assert(ty && "type is null"); 32254c56347SValentin Clement const auto end = attrs.size(); 32354c56347SValentin Clement for (std::remove_const_t<decltype(end)> i = 0; i < end; ++i) { 32454c56347SValentin Clement if (auto seq = ty.dyn_cast<mlir::LLVM::LLVMArrayType>()) { 32554c56347SValentin Clement const auto dim = getDimension(seq); 32654c56347SValentin Clement if (dim > 1) { 32754c56347SValentin Clement auto ub = std::min(i + dim, end); 32854c56347SValentin Clement std::reverse(attrs.begin() + i, attrs.begin() + ub); 32954c56347SValentin Clement i += dim - 1; 33054c56347SValentin Clement } 33154c56347SValentin Clement ty = getArrayElementType(seq); 33254c56347SValentin Clement } else if (auto st = ty.dyn_cast<mlir::LLVM::LLVMStructType>()) { 33354c56347SValentin Clement ty = st.getBody()[attrs[i].cast<mlir::IntegerAttr>().getInt()]; 33454c56347SValentin Clement } else { 33554c56347SValentin Clement llvm_unreachable("index into invalid type"); 33654c56347SValentin Clement } 33754c56347SValentin Clement } 33854c56347SValentin Clement } 33954c56347SValentin Clement 34054c56347SValentin Clement static llvm::SmallVector<mlir::Attribute> 34154c56347SValentin Clement collectIndices(mlir::ConversionPatternRewriter &rewriter, 34254c56347SValentin Clement mlir::ArrayAttr arrAttr) { 34354c56347SValentin Clement llvm::SmallVector<mlir::Attribute> attrs; 34454c56347SValentin Clement for (auto i = arrAttr.begin(), e = arrAttr.end(); i != e; ++i) { 34554c56347SValentin Clement if (i->isa<mlir::IntegerAttr>()) { 34654c56347SValentin Clement attrs.push_back(*i); 34754c56347SValentin Clement } else { 34854c56347SValentin Clement auto fieldName = i->cast<mlir::StringAttr>().getValue(); 34954c56347SValentin Clement ++i; 35054c56347SValentin Clement auto ty = i->cast<mlir::TypeAttr>().getValue(); 35154c56347SValentin Clement auto index = ty.cast<fir::RecordType>().getFieldIndex(fieldName); 35254c56347SValentin Clement attrs.push_back(mlir::IntegerAttr::get(rewriter.getI32Type(), index)); 35354c56347SValentin Clement } 35454c56347SValentin Clement } 35554c56347SValentin Clement return attrs; 35654c56347SValentin Clement } 35754c56347SValentin Clement 35854c56347SValentin Clement private: 35954c56347SValentin Clement static unsigned getDimension(mlir::LLVM::LLVMArrayType ty) { 36054c56347SValentin Clement unsigned result = 1; 36154c56347SValentin Clement for (auto eleTy = ty.getElementType().dyn_cast<mlir::LLVM::LLVMArrayType>(); 36254c56347SValentin Clement eleTy; 36354c56347SValentin Clement eleTy = eleTy.getElementType().dyn_cast<mlir::LLVM::LLVMArrayType>()) 36454c56347SValentin Clement ++result; 36554c56347SValentin Clement return result; 36654c56347SValentin Clement } 36754c56347SValentin Clement 36854c56347SValentin Clement static mlir::Type getArrayElementType(mlir::LLVM::LLVMArrayType ty) { 36954c56347SValentin Clement auto eleTy = ty.getElementType(); 37054c56347SValentin Clement while (auto arrTy = eleTy.dyn_cast<mlir::LLVM::LLVMArrayType>()) 37154c56347SValentin Clement eleTy = arrTy.getElementType(); 37254c56347SValentin Clement return eleTy; 37354c56347SValentin Clement } 37454c56347SValentin Clement }; 37554c56347SValentin Clement 37654c56347SValentin Clement /// Extract a subobject value from an ssa-value of aggregate type 37754c56347SValentin Clement struct ExtractValueOpConversion 37854c56347SValentin Clement : public FIROpAndTypeConversion<fir::ExtractValueOp>, 37954c56347SValentin Clement public ValueOpCommon { 38054c56347SValentin Clement using FIROpAndTypeConversion::FIROpAndTypeConversion; 38154c56347SValentin Clement 38254c56347SValentin Clement mlir::LogicalResult 38354c56347SValentin Clement doRewrite(fir::ExtractValueOp extractVal, mlir::Type ty, OpAdaptor adaptor, 38454c56347SValentin Clement mlir::ConversionPatternRewriter &rewriter) const override { 38554c56347SValentin Clement auto attrs = collectIndices(rewriter, extractVal.coor()); 38654c56347SValentin Clement toRowMajor(attrs, adaptor.getOperands()[0].getType()); 38754c56347SValentin Clement auto position = mlir::ArrayAttr::get(extractVal.getContext(), attrs); 38854c56347SValentin Clement rewriter.replaceOpWithNewOp<mlir::LLVM::ExtractValueOp>( 38954c56347SValentin Clement extractVal, ty, adaptor.getOperands()[0], position); 39054c56347SValentin Clement return success(); 39154c56347SValentin Clement } 39254c56347SValentin Clement }; 39354c56347SValentin Clement 39454c56347SValentin Clement /// InsertValue is the generalized instruction for the composition of new 39554c56347SValentin Clement /// aggregate type values. 39654c56347SValentin Clement struct InsertValueOpConversion 39754c56347SValentin Clement : public FIROpAndTypeConversion<fir::InsertValueOp>, 39854c56347SValentin Clement public ValueOpCommon { 39954c56347SValentin Clement using FIROpAndTypeConversion::FIROpAndTypeConversion; 40054c56347SValentin Clement 40154c56347SValentin Clement mlir::LogicalResult 40254c56347SValentin Clement doRewrite(fir::InsertValueOp insertVal, mlir::Type ty, OpAdaptor adaptor, 40354c56347SValentin Clement mlir::ConversionPatternRewriter &rewriter) const override { 40454c56347SValentin Clement auto attrs = collectIndices(rewriter, insertVal.coor()); 40554c56347SValentin Clement toRowMajor(attrs, adaptor.getOperands()[0].getType()); 40654c56347SValentin Clement auto position = mlir::ArrayAttr::get(insertVal.getContext(), attrs); 40754c56347SValentin Clement rewriter.replaceOpWithNewOp<mlir::LLVM::InsertValueOp>( 40854c56347SValentin Clement insertVal, ty, adaptor.getOperands()[0], adaptor.getOperands()[1], 40954c56347SValentin Clement position); 41054c56347SValentin Clement return success(); 41154c56347SValentin Clement } 41254c56347SValentin Clement }; 41354c56347SValentin Clement 4143ae8e442SValentin Clement /// InsertOnRange inserts a value into a sequence over a range of offsets. 4153ae8e442SValentin Clement struct InsertOnRangeOpConversion 4163ae8e442SValentin Clement : public FIROpAndTypeConversion<fir::InsertOnRangeOp> { 4173ae8e442SValentin Clement using FIROpAndTypeConversion::FIROpAndTypeConversion; 4183ae8e442SValentin Clement 4193ae8e442SValentin Clement // Increments an array of subscripts in a row major fasion. 4203ae8e442SValentin Clement void incrementSubscripts(const SmallVector<uint64_t> &dims, 4213ae8e442SValentin Clement SmallVector<uint64_t> &subscripts) const { 4223ae8e442SValentin Clement for (size_t i = dims.size(); i > 0; --i) { 4233ae8e442SValentin Clement if (++subscripts[i - 1] < dims[i - 1]) { 4243ae8e442SValentin Clement return; 4253ae8e442SValentin Clement } 4263ae8e442SValentin Clement subscripts[i - 1] = 0; 4273ae8e442SValentin Clement } 4283ae8e442SValentin Clement } 4293ae8e442SValentin Clement 4303ae8e442SValentin Clement mlir::LogicalResult 4313ae8e442SValentin Clement doRewrite(fir::InsertOnRangeOp range, mlir::Type ty, OpAdaptor adaptor, 4323ae8e442SValentin Clement mlir::ConversionPatternRewriter &rewriter) const override { 4333ae8e442SValentin Clement 4343ae8e442SValentin Clement llvm::SmallVector<uint64_t> dims; 4353ae8e442SValentin Clement auto type = adaptor.getOperands()[0].getType(); 4363ae8e442SValentin Clement 4373ae8e442SValentin Clement // Iteratively extract the array dimensions from the type. 4383ae8e442SValentin Clement while (auto t = type.dyn_cast<mlir::LLVM::LLVMArrayType>()) { 4393ae8e442SValentin Clement dims.push_back(t.getNumElements()); 4403ae8e442SValentin Clement type = t.getElementType(); 4413ae8e442SValentin Clement } 4423ae8e442SValentin Clement 4433ae8e442SValentin Clement SmallVector<uint64_t> lBounds; 4443ae8e442SValentin Clement SmallVector<uint64_t> uBounds; 4453ae8e442SValentin Clement 4463ae8e442SValentin Clement // Extract integer value from the attribute 4473ae8e442SValentin Clement SmallVector<int64_t> coordinates = llvm::to_vector<4>( 4483ae8e442SValentin Clement llvm::map_range(range.coor(), [](Attribute a) -> int64_t { 4493ae8e442SValentin Clement return a.cast<IntegerAttr>().getInt(); 4503ae8e442SValentin Clement })); 4513ae8e442SValentin Clement 4523ae8e442SValentin Clement // Unzip the upper and lower bound and convert to a row major format. 4533ae8e442SValentin Clement for (auto i = coordinates.rbegin(), e = coordinates.rend(); i != e; ++i) { 4543ae8e442SValentin Clement uBounds.push_back(*i++); 4553ae8e442SValentin Clement lBounds.push_back(*i); 4563ae8e442SValentin Clement } 4573ae8e442SValentin Clement 4583ae8e442SValentin Clement auto &subscripts = lBounds; 4593ae8e442SValentin Clement auto loc = range.getLoc(); 4603ae8e442SValentin Clement mlir::Value lastOp = adaptor.getOperands()[0]; 4613ae8e442SValentin Clement mlir::Value insertVal = adaptor.getOperands()[1]; 4623ae8e442SValentin Clement 4633ae8e442SValentin Clement auto i64Ty = rewriter.getI64Type(); 4643ae8e442SValentin Clement while (subscripts != uBounds) { 4653ae8e442SValentin Clement // Convert uint64_t's to Attribute's. 4663ae8e442SValentin Clement SmallVector<mlir::Attribute> subscriptAttrs; 4673ae8e442SValentin Clement for (const auto &subscript : subscripts) 4683ae8e442SValentin Clement subscriptAttrs.push_back(IntegerAttr::get(i64Ty, subscript)); 4693ae8e442SValentin Clement lastOp = rewriter.create<mlir::LLVM::InsertValueOp>( 4703ae8e442SValentin Clement loc, ty, lastOp, insertVal, 4713ae8e442SValentin Clement ArrayAttr::get(range.getContext(), subscriptAttrs)); 4723ae8e442SValentin Clement 4733ae8e442SValentin Clement incrementSubscripts(dims, subscripts); 4743ae8e442SValentin Clement } 4753ae8e442SValentin Clement 4763ae8e442SValentin Clement // Convert uint64_t's to Attribute's. 4773ae8e442SValentin Clement SmallVector<mlir::Attribute> subscriptAttrs; 4783ae8e442SValentin Clement for (const auto &subscript : subscripts) 4793ae8e442SValentin Clement subscriptAttrs.push_back( 4803ae8e442SValentin Clement IntegerAttr::get(rewriter.getI64Type(), subscript)); 4813ae8e442SValentin Clement mlir::ArrayRef<mlir::Attribute> arrayRef(subscriptAttrs); 4823ae8e442SValentin Clement 4833ae8e442SValentin Clement rewriter.replaceOpWithNewOp<mlir::LLVM::InsertValueOp>( 4843ae8e442SValentin Clement range, ty, lastOp, insertVal, 4853ae8e442SValentin Clement ArrayAttr::get(range.getContext(), arrayRef)); 4863ae8e442SValentin Clement 4873ae8e442SValentin Clement return success(); 4883ae8e442SValentin Clement } 4893ae8e442SValentin Clement }; 490044d5b5dSValentin Clement } // namespace 491044d5b5dSValentin Clement 492044d5b5dSValentin Clement namespace { 493044d5b5dSValentin Clement /// Convert FIR dialect to LLVM dialect 494044d5b5dSValentin Clement /// 495044d5b5dSValentin Clement /// This pass lowers all FIR dialect operations to LLVM IR dialect. An 496044d5b5dSValentin Clement /// MLIR pass is used to lower residual Std dialect to LLVM IR dialect. 497044d5b5dSValentin Clement /// 498044d5b5dSValentin Clement /// This pass is not complete yet. We are upstreaming it in small patches. 499044d5b5dSValentin Clement class FIRToLLVMLowering : public fir::FIRToLLVMLoweringBase<FIRToLLVMLowering> { 500044d5b5dSValentin Clement public: 501044d5b5dSValentin Clement mlir::ModuleOp getModule() { return getOperation(); } 502044d5b5dSValentin Clement 503044d5b5dSValentin Clement void runOnOperation() override final { 504044d5b5dSValentin Clement auto *context = getModule().getContext(); 505044d5b5dSValentin Clement fir::LLVMTypeConverter typeConverter{getModule()}; 506044d5b5dSValentin Clement mlir::OwningRewritePatternList pattern(context); 50754c56347SValentin Clement pattern.insert< 508*ddd11b9aSAndrzej Warzynski AddrOfOpConversion, CallOpConversion, ExtractValueOpConversion, 509*ddd11b9aSAndrzej Warzynski HasValueOpConversion, GlobalOpConversion, InsertOnRangeOpConversion, 510*ddd11b9aSAndrzej Warzynski InsertValueOpConversion, SelectOpConversion, SelectRankOpConversion, 511*ddd11b9aSAndrzej Warzynski UndefOpConversion, UnreachableOpConversion, ZeroOpConversion>( 512*ddd11b9aSAndrzej Warzynski typeConverter); 513044d5b5dSValentin Clement mlir::populateStdToLLVMConversionPatterns(typeConverter, pattern); 514044d5b5dSValentin Clement mlir::arith::populateArithmeticToLLVMConversionPatterns(typeConverter, 515044d5b5dSValentin Clement pattern); 516044d5b5dSValentin Clement mlir::ConversionTarget target{*context}; 517044d5b5dSValentin Clement target.addLegalDialect<mlir::LLVM::LLVMDialect>(); 518044d5b5dSValentin Clement 519044d5b5dSValentin Clement // required NOPs for applying a full conversion 520044d5b5dSValentin Clement target.addLegalOp<mlir::ModuleOp>(); 521044d5b5dSValentin Clement 522044d5b5dSValentin Clement // apply the patterns 523044d5b5dSValentin Clement if (mlir::failed(mlir::applyFullConversion(getModule(), target, 524044d5b5dSValentin Clement std::move(pattern)))) { 525044d5b5dSValentin Clement signalPassFailure(); 526044d5b5dSValentin Clement } 527044d5b5dSValentin Clement } 528044d5b5dSValentin Clement }; 529044d5b5dSValentin Clement } // namespace 530044d5b5dSValentin Clement 531044d5b5dSValentin Clement std::unique_ptr<mlir::Pass> fir::createFIRToLLVMPass() { 532044d5b5dSValentin Clement return std::make_unique<FIRToLLVMLowering>(); 533044d5b5dSValentin Clement } 534