flang/lib/Lower/OpenMP.cpp - llvm-project - Git at Google

 //===-- OpenMP.cpp -- Open MP directive lowering --------------------------===//
 //
 // 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/Lower/OpenMP.h"
 #include "flang/Common/idioms.h"
 #include "flang/Lower/Bridge.h"
 #include "flang/Lower/FIRBuilder.h"
 #include "flang/Lower/PFTBuilder.h"
 #include "flang/Lower/Support/BoxValue.h"
 #include "flang/Lower/Todo.h"
 #include "flang/Parser/parse-tree.h"
 #include "flang/Semantics/tools.h"
 #include "mlir/Dialect/OpenMP/OpenMPDialect.h"
 #include "llvm/Frontend/OpenMP/OMPConstants.h"

 static const Fortran::parser::Name *
 getDesignatorNameIfDataRef(const Fortran::parser::Designator &designator) {
   const auto *dataRef = std::get_if<Fortran::parser::DataRef>(&designator.u);
   return dataRef ? std::get_if<Fortran::parser::Name>(&dataRef->u) : nullptr;
 }

 static void genObjectList(const Fortran::parser::OmpObjectList &objectList,
                           Fortran::lower::AbstractConverter &converter,
                           SmallVectorImpl<Value> &operands) {
   for (const auto &ompObject : objectList.v) {
     std::visit(
         Fortran::common::visitors{
             [&](const Fortran::parser::Designator &designator) {
               if (const auto *name = getDesignatorNameIfDataRef(designator)) {
                 const auto variable = converter.getSymbolAddress(*name->symbol);
                 operands.push_back(variable);
               }
             },
             [&](const Fortran::parser::Name &name) {
               const auto variable = converter.getSymbolAddress(*name.symbol);
               operands.push_back(variable);
             }},
         ompObject.u);
   }
 }

 template <typename Op>
 static void createBodyOfOp(Op &op, Fortran::lower::FirOpBuilder &firOpBuilder,
                            mlir::Location &loc) {
   firOpBuilder.createBlock(&op.getRegion());
   auto &block = op.getRegion().back();
   firOpBuilder.setInsertionPointToStart(&block);
   // Ensure the block is well-formed.
   firOpBuilder.create<mlir::omp::TerminatorOp>(loc);
   // Reset the insertion point to the start of the first block.
   firOpBuilder.setInsertionPointToStart(&block);
 }

 static void genOMP(Fortran::lower::AbstractConverter &converter,
                    Fortran::lower::pft::Evaluation &eval,
                    const Fortran::parser::OpenMPSimpleStandaloneConstruct
                        &simpleStandaloneConstruct) {
   const auto &directive =
       std::get<Fortran::parser::OmpSimpleStandaloneDirective>(
           simpleStandaloneConstruct.t);
   switch (directive.v) {
   default:
     break;
   case llvm::omp::Directive::OMPD_barrier:
     converter.getFirOpBuilder().create<mlir::omp::BarrierOp>(
         converter.getCurrentLocation());
     break;
   case llvm::omp::Directive::OMPD_taskwait:
     converter.getFirOpBuilder().create<mlir::omp::TaskwaitOp>(
         converter.getCurrentLocation());
     break;
   case llvm::omp::Directive::OMPD_taskyield:
     converter.getFirOpBuilder().create<mlir::omp::TaskyieldOp>(
         converter.getCurrentLocation());
     break;
   case llvm::omp::Directive::OMPD_target_enter_data:
     TODO(converter.getCurrentLocation(), "OMPD_target_enter_data");
   case llvm::omp::Directive::OMPD_target_exit_data:
     TODO(converter.getCurrentLocation(), "OMPD_target_exit_data");
   case llvm::omp::Directive::OMPD_target_update:
     TODO(converter.getCurrentLocation(), "OMPD_target_update");
   case llvm::omp::Directive::OMPD_ordered:
     TODO(converter.getCurrentLocation(), "OMPD_ordered");
   }
 }

 static void
 genOMP(Fortran::lower::AbstractConverter &converter,
        Fortran::lower::pft::Evaluation &eval,
        const Fortran::parser::OpenMPStandaloneConstruct &standaloneConstruct) {
   std::visit(
       Fortran::common::visitors{
           [&](const Fortran::parser::OpenMPSimpleStandaloneConstruct
                   &simpleStandaloneConstruct) {
             genOMP(converter, eval, simpleStandaloneConstruct);
           },
           [&](const Fortran::parser::OpenMPFlushConstruct &flushConstruct) {
             SmallVector<Value, 4> operandRange;
             if (const auto &ompObjectList =
                     std::get<std::optional<Fortran::parser::OmpObjectList>>(
                         flushConstruct.t))
               genObjectList(*ompObjectList, converter, operandRange);
             if (std::get<std::optional<
                     std::list<Fortran::parser::OmpMemoryOrderClause>>>(
                     flushConstruct.t))
               TODO(converter.getCurrentLocation(),
                    "Handle OmpMemoryOrderClause");
             converter.getFirOpBuilder().create<mlir::omp::FlushOp>(
                 converter.getCurrentLocation(), operandRange);
           },
           [&](const Fortran::parser::OpenMPCancelConstruct &cancelConstruct) {
             TODO(converter.getCurrentLocation(), "OpenMPCancelConstruct");
           },
           [&](const Fortran::parser::OpenMPCancellationPointConstruct
                   &cancellationPointConstruct) {
             TODO(converter.getCurrentLocation(), "OpenMPCancelConstruct");
           },
       },
       standaloneConstruct.u);
 }

 static void
 genOMP(Fortran::lower::AbstractConverter &converter,
        Fortran::lower::pft::Evaluation &eval,
        const Fortran::parser::OpenMPBlockConstruct &blockConstruct) {
   const auto &beginBlockDirective =
       std::get<Fortran::parser::OmpBeginBlockDirective>(blockConstruct.t);
   const auto &blockDirective =
       std::get<Fortran::parser::OmpBlockDirective>(beginBlockDirective.t);

   auto &firOpBuilder = converter.getFirOpBuilder();
   auto currentLocation = converter.getCurrentLocation();
   llvm::ArrayRef<mlir::Type> argTy;
   if (blockDirective.v == llvm::omp::OMPD_parallel) {

     mlir::Value ifClauseOperand, numThreadsClauseOperand;
     SmallVector<Value, 4> privateClauseOperands, firstprivateClauseOperands,
         sharedClauseOperands, copyinClauseOperands;
     Attribute defaultClauseOperand, procBindClauseOperand;

     const auto &parallelOpClauseList =
         std::get<Fortran::parser::OmpClauseList>(beginBlockDirective.t);
     for (const auto &clause : parallelOpClauseList.v) {
       if (const auto &ifClause =
               std::get_if<Fortran::parser::OmpClause::If>(&clause.u)) {
         auto &expr =
             std::get<Fortran::parser::ScalarLogicalExpr>(ifClause->v.t);
         ifClauseOperand = fir::getBase(
             converter.genExprValue(*Fortran::semantics::GetExpr(expr)));
       } else if (const auto &numThreadsClause =
                      std::get_if<Fortran::parser::OmpClause::NumThreads>(
                          &clause.u)) {
         // OMPIRBuilder expects `NUM_THREAD` clause as a `Value`.
         numThreadsClauseOperand = fir::getBase(converter.genExprValue(
             *Fortran::semantics::GetExpr(numThreadsClause->v)));
       } else if (const auto &privateClause =
                      std::get_if<Fortran::parser::OmpClause::Private>(
                          &clause.u)) {
         const Fortran::parser::OmpObjectList &ompObjectList = privateClause->v;
         genObjectList(ompObjectList, converter, privateClauseOperands);
       } else if (const auto &firstprivateClause =
                      std::get_if<Fortran::parser::OmpClause::Firstprivate>(
                          &clause.u)) {
         const Fortran::parser::OmpObjectList &ompObjectList =
             firstprivateClause->v;
         genObjectList(ompObjectList, converter, firstprivateClauseOperands);
       } else if (const auto &sharedClause =
                      std::get_if<Fortran::parser::OmpClause::Shared>(
                          &clause.u)) {
         const Fortran::parser::OmpObjectList &ompObjectList = sharedClause->v;
         genObjectList(ompObjectList, converter, sharedClauseOperands);
       } else if (const auto &copyinClause =
                      std::get_if<Fortran::parser::OmpClause::Copyin>(
                          &clause.u)) {
         const Fortran::parser::OmpObjectList &ompObjectList = copyinClause->v;
         genObjectList(ompObjectList, converter, copyinClauseOperands);
       }
     }
     // Create and insert the operation.
     auto parallelOp = firOpBuilder.create<mlir::omp::ParallelOp>(
         currentLocation, argTy, ifClauseOperand, numThreadsClauseOperand,
         defaultClauseOperand.dyn_cast_or_null<StringAttr>(),
         privateClauseOperands, firstprivateClauseOperands, sharedClauseOperands,
         copyinClauseOperands, ValueRange(), ValueRange(),
         procBindClauseOperand.dyn_cast_or_null<StringAttr>());
     // Handle attribute based clauses.
     for (const auto &clause : parallelOpClauseList.v) {
       if (const auto &defaultClause =
               std::get_if<Fortran::parser::OmpClause::Default>(&clause.u)) {
         const auto &ompDefaultClause{defaultClause->v};
         switch (ompDefaultClause.v) {
         case Fortran::parser::OmpDefaultClause::Type::Private:
           parallelOp.default_valAttr(firOpBuilder.getStringAttr(
               omp::stringifyClauseDefault(omp::ClauseDefault::defprivate)));
           break;
         case Fortran::parser::OmpDefaultClause::Type::Firstprivate:
           parallelOp.default_valAttr(
               firOpBuilder.getStringAttr(omp::stringifyClauseDefault(
                   omp::ClauseDefault::deffirstprivate)));
           break;
         case Fortran::parser::OmpDefaultClause::Type::Shared:
           parallelOp.default_valAttr(firOpBuilder.getStringAttr(
               omp::stringifyClauseDefault(omp::ClauseDefault::defshared)));
           break;
         case Fortran::parser::OmpDefaultClause::Type::None:
           parallelOp.default_valAttr(firOpBuilder.getStringAttr(
               omp::stringifyClauseDefault(omp::ClauseDefault::defnone)));
           break;
         }
       }
       if (const auto &procBindClause =
               std::get_if<Fortran::parser::OmpClause::ProcBind>(&clause.u)) {
         const auto &ompProcBindClause{procBindClause->v};
         switch (ompProcBindClause.v) {
         case Fortran::parser::OmpProcBindClause::Type::Master:
           parallelOp.proc_bind_valAttr(
               firOpBuilder.getStringAttr(omp::stringifyClauseProcBindKind(
                   omp::ClauseProcBindKind::master)));
           break;
         case Fortran::parser::OmpProcBindClause::Type::Close:
           parallelOp.proc_bind_valAttr(
               firOpBuilder.getStringAttr(omp::stringifyClauseProcBindKind(
                   omp::ClauseProcBindKind::close)));
           break;
         case Fortran::parser::OmpProcBindClause::Type::Spread:
           parallelOp.proc_bind_valAttr(
               firOpBuilder.getStringAttr(omp::stringifyClauseProcBindKind(
                   omp::ClauseProcBindKind::spread)));
           break;
         }
       }
     }
     createBodyOfOp<omp::ParallelOp>(parallelOp, firOpBuilder, currentLocation);
   } else if (blockDirective.v == llvm::omp::OMPD_master) {
     auto masterOp =
         firOpBuilder.create<mlir::omp::MasterOp>(currentLocation, argTy);
     createBodyOfOp<omp::MasterOp>(masterOp, firOpBuilder, currentLocation);
   }
 }

 void Fortran::lower::genOpenMPConstruct(
     Fortran::lower::AbstractConverter &converter,
     Fortran::lower::pft::Evaluation &eval,
     const Fortran::parser::OpenMPConstruct &ompConstruct) {

   std::visit(
       common::visitors{
           [&](const Fortran::parser::OpenMPStandaloneConstruct
                   &standaloneConstruct) {
             genOMP(converter, eval, standaloneConstruct);
           },
           [&](const Fortran::parser::OpenMPSectionsConstruct
                   &sectionsConstruct) {
             TODO(converter.getCurrentLocation(), "OpenMPSectionsConstruct");
           },
           [&](const Fortran::parser::OpenMPLoopConstruct &loopConstruct) {
             TODO(converter.getCurrentLocation(), "OpenMPLoopConstruct");
           },
           [&](const Fortran::parser::OpenMPDeclarativeAllocate
                   &execAllocConstruct) {
             TODO(converter.getCurrentLocation(), "OpenMPDeclarativeAllocate");
           },
           [&](const Fortran::parser::OpenMPExecutableAllocate
                   &execAllocConstruct) {
             TODO(converter.getCurrentLocation(), "OpenMPExecutableAllocate");
           },
           [&](const Fortran::parser::OpenMPBlockConstruct &blockConstruct) {
             genOMP(converter, eval, blockConstruct);
           },
           [&](const Fortran::parser::OpenMPAtomicConstruct &atomicConstruct) {
             TODO(converter.getCurrentLocation(), "OpenMPAtomicConstruct");
           },
           [&](const Fortran::parser::OpenMPCriticalConstruct
                   &criticalConstruct) {
             TODO(converter.getCurrentLocation(), "OpenMPCriticalConstruct");
           },
       },
       ompConstruct.u);
 }
	//===-- OpenMP.cpp -- Open MP directive lowering --------------------------===//
	//
	// 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/Lower/OpenMP.h"
	#include "flang/Common/idioms.h"
	#include "flang/Lower/Bridge.h"
	#include "flang/Lower/FIRBuilder.h"
	#include "flang/Lower/PFTBuilder.h"
	#include "flang/Lower/Support/BoxValue.h"
	#include "flang/Lower/Todo.h"
	#include "flang/Parser/parse-tree.h"
	#include "flang/Semantics/tools.h"
	#include "mlir/Dialect/OpenMP/OpenMPDialect.h"
	#include "llvm/Frontend/OpenMP/OMPConstants.h"

	static const Fortran::parser::Name *
	getDesignatorNameIfDataRef(const Fortran::parser::Designator &designator) {
	const auto *dataRef = std::get_if<Fortran::parser::DataRef>(&designator.u);
	return dataRef ? std::get_if<Fortran::parser::Name>(&dataRef->u) : nullptr;
	}

	static void genObjectList(const Fortran::parser::OmpObjectList &objectList,
	Fortran::lower::AbstractConverter &converter,
	SmallVectorImpl<Value> &operands) {
	for (const auto &ompObject : objectList.v) {
	std::visit(
	Fortran::common::visitors{
	[&](const Fortran::parser::Designator &designator) {
	if (const auto *name = getDesignatorNameIfDataRef(designator)) {
	const auto variable = converter.getSymbolAddress(*name->symbol);
	operands.push_back(variable);
	}
	},
	[&](const Fortran::parser::Name &name) {
	const auto variable = converter.getSymbolAddress(*name.symbol);
	operands.push_back(variable);
	}},
	ompObject.u);
	}
	}

	template <typename Op>
	static void createBodyOfOp(Op &op, Fortran::lower::FirOpBuilder &firOpBuilder,
	mlir::Location &loc) {
	firOpBuilder.createBlock(&op.getRegion());
	auto &block = op.getRegion().back();
	firOpBuilder.setInsertionPointToStart(&block);
	// Ensure the block is well-formed.
	firOpBuilder.create<mlir::omp::TerminatorOp>(loc);
	// Reset the insertion point to the start of the first block.
	firOpBuilder.setInsertionPointToStart(&block);
	}

	static void genOMP(Fortran::lower::AbstractConverter &converter,
	Fortran::lower::pft::Evaluation &eval,
	const Fortran::parser::OpenMPSimpleStandaloneConstruct
	&simpleStandaloneConstruct) {
	const auto &directive =
	std::get<Fortran::parser::OmpSimpleStandaloneDirective>(
	simpleStandaloneConstruct.t);
	switch (directive.v) {
	default:
	break;
	case llvm::omp::Directive::OMPD_barrier:
	converter.getFirOpBuilder().create<mlir::omp::BarrierOp>(
	converter.getCurrentLocation());
	break;
	case llvm::omp::Directive::OMPD_taskwait:
	converter.getFirOpBuilder().create<mlir::omp::TaskwaitOp>(
	converter.getCurrentLocation());
	break;
	case llvm::omp::Directive::OMPD_taskyield:
	converter.getFirOpBuilder().create<mlir::omp::TaskyieldOp>(
	converter.getCurrentLocation());
	break;
	case llvm::omp::Directive::OMPD_target_enter_data:
	TODO(converter.getCurrentLocation(), "OMPD_target_enter_data");
	case llvm::omp::Directive::OMPD_target_exit_data:
	TODO(converter.getCurrentLocation(), "OMPD_target_exit_data");
	case llvm::omp::Directive::OMPD_target_update:
	TODO(converter.getCurrentLocation(), "OMPD_target_update");
	case llvm::omp::Directive::OMPD_ordered:
	TODO(converter.getCurrentLocation(), "OMPD_ordered");
	}
	}

	static void
	genOMP(Fortran::lower::AbstractConverter &converter,
	Fortran::lower::pft::Evaluation &eval,
	const Fortran::parser::OpenMPStandaloneConstruct &standaloneConstruct) {
	std::visit(
	Fortran::common::visitors{
	[&](const Fortran::parser::OpenMPSimpleStandaloneConstruct
	&simpleStandaloneConstruct) {
	genOMP(converter, eval, simpleStandaloneConstruct);
	},
	[&](const Fortran::parser::OpenMPFlushConstruct &flushConstruct) {
	SmallVector<Value, 4> operandRange;
	if (const auto &ompObjectList =
	std::get<std::optional<Fortran::parser::OmpObjectList>>(
	flushConstruct.t))
	genObjectList(*ompObjectList, converter, operandRange);
	if (std::get<std::optional<
	std::list<Fortran::parser::OmpMemoryOrderClause>>>(
	flushConstruct.t))
	TODO(converter.getCurrentLocation(),
	"Handle OmpMemoryOrderClause");
	converter.getFirOpBuilder().create<mlir::omp::FlushOp>(
	converter.getCurrentLocation(), operandRange);
	},
	[&](const Fortran::parser::OpenMPCancelConstruct &cancelConstruct) {
	TODO(converter.getCurrentLocation(), "OpenMPCancelConstruct");
	},
	[&](const Fortran::parser::OpenMPCancellationPointConstruct
	&cancellationPointConstruct) {
	TODO(converter.getCurrentLocation(), "OpenMPCancelConstruct");
	},
	},
	standaloneConstruct.u);
	}

	static void
	genOMP(Fortran::lower::AbstractConverter &converter,
	Fortran::lower::pft::Evaluation &eval,
	const Fortran::parser::OpenMPBlockConstruct &blockConstruct) {
	const auto &beginBlockDirective =
	std::get<Fortran::parser::OmpBeginBlockDirective>(blockConstruct.t);
	const auto &blockDirective =
	std::get<Fortran::parser::OmpBlockDirective>(beginBlockDirective.t);

	auto &firOpBuilder = converter.getFirOpBuilder();
	auto currentLocation = converter.getCurrentLocation();
	llvm::ArrayRef<mlir::Type> argTy;
	if (blockDirective.v == llvm::omp::OMPD_parallel) {

	mlir::Value ifClauseOperand, numThreadsClauseOperand;
	SmallVector<Value, 4> privateClauseOperands, firstprivateClauseOperands,
	sharedClauseOperands, copyinClauseOperands;
	Attribute defaultClauseOperand, procBindClauseOperand;

	const auto &parallelOpClauseList =
	std::get<Fortran::parser::OmpClauseList>(beginBlockDirective.t);
	for (const auto &clause : parallelOpClauseList.v) {
	if (const auto &ifClause =
	std::get_if<Fortran::parser::OmpClause::If>(&clause.u)) {
	auto &expr =
	std::get<Fortran::parser::ScalarLogicalExpr>(ifClause->v.t);
	ifClauseOperand = fir::getBase(
	converter.genExprValue(*Fortran::semantics::GetExpr(expr)));
	} else if (const auto &numThreadsClause =
	std::get_if<Fortran::parser::OmpClause::NumThreads>(
	&clause.u)) {
	// OMPIRBuilder expects `NUM_THREAD` clause as a `Value`.
	numThreadsClauseOperand = fir::getBase(converter.genExprValue(
	*Fortran::semantics::GetExpr(numThreadsClause->v)));
	} else if (const auto &privateClause =
	std::get_if<Fortran::parser::OmpClause::Private>(
	&clause.u)) {
	const Fortran::parser::OmpObjectList &ompObjectList = privateClause->v;
	genObjectList(ompObjectList, converter, privateClauseOperands);
	} else if (const auto &firstprivateClause =
	std::get_if<Fortran::parser::OmpClause::Firstprivate>(
	&clause.u)) {
	const Fortran::parser::OmpObjectList &ompObjectList =
	firstprivateClause->v;
	genObjectList(ompObjectList, converter, firstprivateClauseOperands);
	} else if (const auto &sharedClause =
	std::get_if<Fortran::parser::OmpClause::Shared>(
	&clause.u)) {
	const Fortran::parser::OmpObjectList &ompObjectList = sharedClause->v;
	genObjectList(ompObjectList, converter, sharedClauseOperands);
	} else if (const auto &copyinClause =
	std::get_if<Fortran::parser::OmpClause::Copyin>(
	&clause.u)) {
	const Fortran::parser::OmpObjectList &ompObjectList = copyinClause->v;
	genObjectList(ompObjectList, converter, copyinClauseOperands);
	}
	}
	// Create and insert the operation.
	auto parallelOp = firOpBuilder.create<mlir::omp::ParallelOp>(
	currentLocation, argTy, ifClauseOperand, numThreadsClauseOperand,
	defaultClauseOperand.dyn_cast_or_null<StringAttr>(),
	privateClauseOperands, firstprivateClauseOperands, sharedClauseOperands,
	copyinClauseOperands, ValueRange(), ValueRange(),
	procBindClauseOperand.dyn_cast_or_null<StringAttr>());
	// Handle attribute based clauses.
	for (const auto &clause : parallelOpClauseList.v) {
	if (const auto &defaultClause =
	std::get_if<Fortran::parser::OmpClause::Default>(&clause.u)) {
	const auto &ompDefaultClause{defaultClause->v};
	switch (ompDefaultClause.v) {
	case Fortran::parser::OmpDefaultClause::Type::Private:
	parallelOp.default_valAttr(firOpBuilder.getStringAttr(
	omp::stringifyClauseDefault(omp::ClauseDefault::defprivate)));
	break;
	case Fortran::parser::OmpDefaultClause::Type::Firstprivate:
	parallelOp.default_valAttr(
	firOpBuilder.getStringAttr(omp::stringifyClauseDefault(
	omp::ClauseDefault::deffirstprivate)));
	break;
	case Fortran::parser::OmpDefaultClause::Type::Shared:
	parallelOp.default_valAttr(firOpBuilder.getStringAttr(
	omp::stringifyClauseDefault(omp::ClauseDefault::defshared)));
	break;
	case Fortran::parser::OmpDefaultClause::Type::None:
	parallelOp.default_valAttr(firOpBuilder.getStringAttr(
	omp::stringifyClauseDefault(omp::ClauseDefault::defnone)));
	break;
	}
	}
	if (const auto &procBindClause =
	std::get_if<Fortran::parser::OmpClause::ProcBind>(&clause.u)) {
	const auto &ompProcBindClause{procBindClause->v};
	switch (ompProcBindClause.v) {
	case Fortran::parser::OmpProcBindClause::Type::Master:
	parallelOp.proc_bind_valAttr(
	firOpBuilder.getStringAttr(omp::stringifyClauseProcBindKind(
	omp::ClauseProcBindKind::master)));
	break;
	case Fortran::parser::OmpProcBindClause::Type::Close:
	parallelOp.proc_bind_valAttr(
	firOpBuilder.getStringAttr(omp::stringifyClauseProcBindKind(
	omp::ClauseProcBindKind::close)));
	break;
	case Fortran::parser::OmpProcBindClause::Type::Spread:
	parallelOp.proc_bind_valAttr(
	firOpBuilder.getStringAttr(omp::stringifyClauseProcBindKind(
	omp::ClauseProcBindKind::spread)));
	break;
	}
	}
	}
	createBodyOfOp<omp::ParallelOp>(parallelOp, firOpBuilder, currentLocation);
	} else if (blockDirective.v == llvm::omp::OMPD_master) {
	auto masterOp =
	firOpBuilder.create<mlir::omp::MasterOp>(currentLocation, argTy);
	createBodyOfOp<omp::MasterOp>(masterOp, firOpBuilder, currentLocation);
	}
	}

	void Fortran::lower::genOpenMPConstruct(
	Fortran::lower::AbstractConverter &converter,
	Fortran::lower::pft::Evaluation &eval,
	const Fortran::parser::OpenMPConstruct &ompConstruct) {

	std::visit(
	common::visitors{
	[&](const Fortran::parser::OpenMPStandaloneConstruct
	&standaloneConstruct) {
	genOMP(converter, eval, standaloneConstruct);
	},
	[&](const Fortran::parser::OpenMPSectionsConstruct
	&sectionsConstruct) {
	TODO(converter.getCurrentLocation(), "OpenMPSectionsConstruct");
	},
	[&](const Fortran::parser::OpenMPLoopConstruct &loopConstruct) {
	TODO(converter.getCurrentLocation(), "OpenMPLoopConstruct");
	},
	[&](const Fortran::parser::OpenMPDeclarativeAllocate
	&execAllocConstruct) {
	TODO(converter.getCurrentLocation(), "OpenMPDeclarativeAllocate");
	},
	[&](const Fortran::parser::OpenMPExecutableAllocate
	&execAllocConstruct) {
	TODO(converter.getCurrentLocation(), "OpenMPExecutableAllocate");
	},
	[&](const Fortran::parser::OpenMPBlockConstruct &blockConstruct) {
	genOMP(converter, eval, blockConstruct);
	},
	[&](const Fortran::parser::OpenMPAtomicConstruct &atomicConstruct) {
	TODO(converter.getCurrentLocation(), "OpenMPAtomicConstruct");
	},
	[&](const Fortran::parser::OpenMPCriticalConstruct
	&criticalConstruct) {
	TODO(converter.getCurrentLocation(), "OpenMPCriticalConstruct");
	},
	},
	ompConstruct.u);
	}