//===-- FortranVariableInterface.cpp.cpp ----------------------------------===// // // Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions. // See https://llvm.org/LICENSE.txt for license information. // SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception // //===----------------------------------------------------------------------===// // // Coding style: https://mlir.llvm.org/getting_started/DeveloperGuide/ // //===----------------------------------------------------------------------===// #include "flang/Optimizer/Dialect/FortranVariableInterface.h" #include "flang/Optimizer/Dialect/FortranVariableInterface.cpp.inc" llvm::LogicalResult fir::FortranVariableOpInterface::verifyDeclareLikeOpImpl(mlir::Value memref) { const unsigned numExplicitTypeParams = getExplicitTypeParams().size(); mlir::Type memType = memref.getType(); const bool sourceIsBoxValue = mlir::isa(memType); const bool sourceIsBoxAddress = fir::isBoxAddress(memType); const bool sourceIsBox = sourceIsBoxValue || sourceIsBoxAddress; if (isCharacter()) { if (numExplicitTypeParams > 1) return emitOpError( "of character entity must have at most one length parameter"); if (numExplicitTypeParams == 0 && !sourceIsBox) return emitOpError("must be provided exactly one type parameter when its " "base is a character that is not a box"); } else if (auto recordType = mlir::dyn_cast(getElementType())) { if (numExplicitTypeParams < recordType.getNumLenParams() && !sourceIsBox) return emitOpError("must be provided all the derived type length " "parameters when the base is not a box"); if (numExplicitTypeParams > recordType.getNumLenParams()) return emitOpError("has too many length parameters"); } else if (numExplicitTypeParams != 0) { return emitOpError("of numeric, logical, or assumed type entity must not " "have length parameters"); } if (isArray()) { if (mlir::Value shape = getShape()) { if (sourceIsBoxAddress) return emitOpError("for box address must not have a shape operand"); unsigned shapeRank = 0; if (auto shapeType = mlir::dyn_cast(shape.getType())) { shapeRank = shapeType.getRank(); } else if (auto shapeShiftType = mlir::dyn_cast(shape.getType())) { shapeRank = shapeShiftType.getRank(); } else { if (!sourceIsBoxValue) return emitOpError( "of array entity with a raw address base must have a " "shape operand that is a shape or shapeshift"); shapeRank = mlir::cast(shape.getType()).getRank(); } std::optional rank = getRank(); if (!rank || *rank != shapeRank) return emitOpError("has conflicting shape and base operand ranks"); } else if (!sourceIsBox) { return emitOpError( "of array entity with a raw address base must have a shape " "operand that is a shape or shapeshift"); } } return mlir::success(); } mlir::LogicalResult fir::detail::verifyFortranVariableStorageOpInterface(mlir::Operation *op) { auto storageIface = mlir::cast(op); mlir::Value storage = storageIface.getStorage(); std::uint64_t storageOffset = storageIface.getStorageOffset(); if (!storage) { if (storageOffset != 0) return op->emitOpError( "storage offset specified without the storage reference"); return mlir::success(); } auto storageType = mlir::dyn_cast(fir::unwrapRefType(storage.getType())); if (!storageType || storageType.getDimension() != 1) return op->emitOpError("storage must be a vector"); if (storageType.hasDynamicExtents()) return op->emitOpError("storage must have known extent"); if (storageType.getEleTy() != mlir::IntegerType::get(op->getContext(), 8)) return op->emitOpError("storage must be an array of i8 elements"); if (storageOffset > storageType.getConstantArraySize()) return op->emitOpError("storage offset exceeds the storage size"); // TODO: we should probably verify that the (offset + sizeof(var)) // is within the storage object, but this requires mlir::DataLayout. // Can we make it available during the verification? return mlir::success(); }