1fcb6a9754
Allocatable members of privatized derived types must be allocated, with the same bounds as the original object, whenever that member is also allocated in it, but Flang was not performing such initialization. The `Initialize` runtime function can't perform this task unless its signature is changed to receive an additional parameter, the original object, that is needed to find out which allocatable members, with their bounds, must also be allocated in the clone. As `Initialize` is used not only for privatization, sometimes this other object won't even exist, so this new parameter would need to be optional. Because of this, it seemed better to add a new runtime function: `InitializeClone`. To avoid unnecessary calls, lowering inserts a call to it only for privatized items that are derived types with allocatable members. Fixes https://github.com/llvm/llvm-project/issues/114888 Fixes https://github.com/llvm/llvm-project/issues/114889
161 lines
6.1 KiB
C++
161 lines
6.1 KiB
C++
//===-- Lower/OpenMP/DataSharingProcessor.h ---------------------*- C++ -*-===//
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//
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// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
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// See https://llvm.org/LICENSE.txt for license information.
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// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
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//
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//===----------------------------------------------------------------------===//
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//
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// Coding style: https://mlir.llvm.org/getting_started/DeveloperGuide/
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//
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//===----------------------------------------------------------------------===//
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#ifndef FORTRAN_LOWER_DATASHARINGPROCESSOR_H
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#define FORTRAN_LOWER_DATASHARINGPROCESSOR_H
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#include "Clauses.h"
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#include "flang/Lower/AbstractConverter.h"
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#include "flang/Lower/OpenMP.h"
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#include "flang/Optimizer/Builder/FIRBuilder.h"
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#include "flang/Parser/parse-tree.h"
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#include "flang/Semantics/symbol.h"
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#include "mlir/Dialect/OpenMP/OpenMPDialect.h"
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namespace mlir {
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namespace omp {
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struct PrivateClauseOps;
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} // namespace omp
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} // namespace mlir
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namespace Fortran {
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namespace lower {
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namespace omp {
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class DataSharingProcessor {
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private:
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/// A symbol visitor that keeps track of the currently active OpenMPConstruct
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/// at any point in time. This is used to track Symbol definition scopes in
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/// order to tell which OMP scope defined vs. references a certain Symbol.
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struct OMPConstructSymbolVisitor {
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template <typename T>
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bool Pre(const T &) {
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return true;
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}
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template <typename T>
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void Post(const T &) {}
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bool Pre(const parser::OpenMPConstruct &omp) {
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// Skip constructs that may not have privatizations.
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if (!std::holds_alternative<parser::OpenMPCriticalConstruct>(omp.u))
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currentConstruct = &omp;
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return true;
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}
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void Post(const parser::OpenMPConstruct &omp) {
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currentConstruct = nullptr;
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}
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void Post(const parser::Name &name) {
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symDefMap.try_emplace(name.symbol, currentConstruct);
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}
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const parser::OpenMPConstruct *currentConstruct = nullptr;
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llvm::DenseMap<semantics::Symbol *, const parser::OpenMPConstruct *>
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symDefMap;
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/// Given a \p symbol and an \p eval, returns true if eval is the OMP
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/// construct that defines symbol.
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bool isSymbolDefineBy(const semantics::Symbol *symbol,
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lower::pft::Evaluation &eval) const;
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};
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mlir::OpBuilder::InsertPoint lastPrivIP;
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llvm::SmallVector<mlir::Value> loopIVs;
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// Symbols in private, firstprivate, and/or lastprivate clauses.
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llvm::SetVector<const semantics::Symbol *> explicitlyPrivatizedSymbols;
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llvm::SetVector<const semantics::Symbol *> defaultSymbols;
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llvm::SetVector<const semantics::Symbol *> implicitSymbols;
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llvm::SetVector<const semantics::Symbol *> preDeterminedSymbols;
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llvm::SetVector<const semantics::Symbol *> allPrivatizedSymbols;
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llvm::DenseMap<const semantics::Symbol *, mlir::omp::PrivateClauseOp>
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symToPrivatizer;
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lower::AbstractConverter &converter;
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semantics::SemanticsContext &semaCtx;
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fir::FirOpBuilder &firOpBuilder;
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omp::List<omp::Clause> clauses;
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lower::pft::Evaluation &eval;
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bool shouldCollectPreDeterminedSymbols;
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bool useDelayedPrivatization;
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bool callsInitClone = false;
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lower::SymMap &symTable;
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OMPConstructSymbolVisitor visitor;
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bool needBarrier();
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void collectSymbols(semantics::Symbol::Flag flag,
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llvm::SetVector<const semantics::Symbol *> &symbols);
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void collectSymbolsInNestedRegions(
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lower::pft::Evaluation &eval, semantics::Symbol::Flag flag,
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llvm::SetVector<const semantics::Symbol *> &symbolsInNestedRegions);
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void collectOmpObjectListSymbol(
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const omp::ObjectList &objects,
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llvm::SetVector<const semantics::Symbol *> &symbolSet);
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void collectSymbolsForPrivatization();
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void insertBarrier();
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void collectDefaultSymbols();
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void collectImplicitSymbols();
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void collectPreDeterminedSymbols();
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void privatize(mlir::omp::PrivateClauseOps *clauseOps);
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void doPrivatize(const semantics::Symbol *sym,
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mlir::omp::PrivateClauseOps *clauseOps);
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void copyLastPrivatize(mlir::Operation *op);
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void insertLastPrivateCompare(mlir::Operation *op);
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void cloneSymbol(const semantics::Symbol *sym);
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void
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copyFirstPrivateSymbol(const semantics::Symbol *sym,
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mlir::OpBuilder::InsertPoint *copyAssignIP = nullptr);
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void copyLastPrivateSymbol(const semantics::Symbol *sym,
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mlir::OpBuilder::InsertPoint *lastPrivIP);
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void insertDeallocs();
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public:
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DataSharingProcessor(lower::AbstractConverter &converter,
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semantics::SemanticsContext &semaCtx,
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const List<Clause> &clauses,
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lower::pft::Evaluation &eval,
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bool shouldCollectPreDeterminedSymbols,
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bool useDelayedPrivatization, lower::SymMap &symTable);
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// Privatisation is split into two steps.
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// Step1 performs cloning of all privatisation clauses and copying for
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// firstprivates. Step1 is performed at the place where process/processStep1
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// is called. This is usually inside the Operation corresponding to the OpenMP
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// construct, for looping constructs this is just before the Operation. The
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// split into two steps was performed basically to be able to call
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// privatisation for looping constructs before the operation is created since
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// the bounds of the MLIR OpenMP operation can be privatised.
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// Step2 performs the copying for lastprivates and requires knowledge of the
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// MLIR operation to insert the last private update. Step2 adds
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// dealocation code as well.
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void processStep1(mlir::omp::PrivateClauseOps *clauseOps = nullptr);
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void processStep2(mlir::Operation *op, bool isLoop);
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void pushLoopIV(mlir::Value iv) { loopIVs.push_back(iv); }
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const llvm::SetVector<const semantics::Symbol *> &
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getAllSymbolsToPrivatize() const {
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return allPrivatizedSymbols;
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}
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llvm::ArrayRef<const semantics::Symbol *> getDelayedPrivSymbols() const {
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return useDelayedPrivatization
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? allPrivatizedSymbols.getArrayRef()
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: llvm::ArrayRef<const semantics::Symbol *>();
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}
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};
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} // namespace omp
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} // namespace lower
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} // namespace Fortran
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#endif // FORTRAN_LOWER_DATASHARINGPROCESSOR_H
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