[flang-commits] [flang] [llvm] [flang][OpenMP] Make OpenMP clause representation language-agnostic (PR #86289)
Krzysztof Parzyszek via flang-commits
flang-commits at lists.llvm.org
Fri Mar 22 08:11:30 PDT 2024
https://github.com/kparzysz updated https://github.com/llvm/llvm-project/pull/86289
>From f0c8bcbab7c059db63fb7553d2b26787daa5dbeb Mon Sep 17 00:00:00 2001
From: Krzysztof Parzyszek <Krzysztof.Parzyszek at amd.com>
Date: Wed, 21 Feb 2024 15:51:38 -0600
Subject: [PATCH 1/4] [flang][OpenMP] Make OpenMP clause representation
language-agnostic
The clause templates defined in ClauseT.h were originally based on
flang's parse tree nodes. Since those representations are going to
be reused for clang (together with the clause splitting code), it
makes sense to separate them from flang, and instead have them based
on the actual OpenMP spec (v5.2).
The member names in the templates follow the naming presented in the
spec, and the representation (e.g. members) is derived from the
clause definitions as described in the spec.
Since the representations of some clauses has changed (while
preserving the information), the current code using the clauses
(especially the code converting parser::OmpClause to omp::Clause)
needs to be adjusted.
This patch does not make any functional changes.
---
flang/lib/Lower/OpenMP/ClauseProcessor.cpp | 184 ++-
flang/lib/Lower/OpenMP/ClauseProcessor.h | 3 +-
flang/lib/Lower/OpenMP/ClauseT.h | 714 -----------
flang/lib/Lower/OpenMP/Clauses.cpp | 783 +++++++++---
flang/lib/Lower/OpenMP/Clauses.h | 245 ++--
.../lib/Lower/OpenMP/DataSharingProcessor.cpp | 8 +-
flang/lib/Lower/OpenMP/OpenMP.cpp | 19 +-
flang/lib/Lower/OpenMP/Utils.cpp | 27 +
flang/lib/Lower/OpenMP/Utils.h | 10 +-
llvm/include/llvm/Frontend/OpenMP/ClauseT.h | 1113 +++++++++++++++++
10 files changed, 2027 insertions(+), 1079 deletions(-)
delete mode 100644 flang/lib/Lower/OpenMP/ClauseT.h
create mode 100644 llvm/include/llvm/Frontend/OpenMP/ClauseT.h
diff --git a/flang/lib/Lower/OpenMP/ClauseProcessor.cpp b/flang/lib/Lower/OpenMP/ClauseProcessor.cpp
index 52c3479b1ea95d..0a57a1496289f4 100644
--- a/flang/lib/Lower/OpenMP/ClauseProcessor.cpp
+++ b/flang/lib/Lower/OpenMP/ClauseProcessor.cpp
@@ -31,57 +31,33 @@ static void checkMapType(mlir::Location location, mlir::Type type) {
}
static mlir::omp::ScheduleModifier
-translateScheduleModifier(const omp::clause::Schedule::ModType &m) {
+translateScheduleModifier(const omp::clause::Schedule::OrderingModifier &m) {
switch (m) {
- case omp::clause::Schedule::ModType::Monotonic:
+ case omp::clause::Schedule::OrderingModifier::Monotonic:
return mlir::omp::ScheduleModifier::monotonic;
- case omp::clause::Schedule::ModType::Nonmonotonic:
+ case omp::clause::Schedule::OrderingModifier::Nonmonotonic:
return mlir::omp::ScheduleModifier::nonmonotonic;
- case omp::clause::Schedule::ModType::Simd:
- return mlir::omp::ScheduleModifier::simd;
}
return mlir::omp::ScheduleModifier::none;
}
static mlir::omp::ScheduleModifier
getScheduleModifier(const omp::clause::Schedule &clause) {
- using ScheduleModifier = omp::clause::Schedule::ScheduleModifier;
- const auto &modifier = std::get<std::optional<ScheduleModifier>>(clause.t);
- // The input may have the modifier any order, so we look for one that isn't
- // SIMD. If modifier is not set at all, fall down to the bottom and return
- // "none".
- if (modifier) {
- using ModType = omp::clause::Schedule::ModType;
- const auto &modType1 = std::get<ModType>(modifier->t);
- if (modType1 == ModType::Simd) {
- const auto &modType2 = std::get<std::optional<ModType>>(modifier->t);
- if (modType2 && *modType2 != ModType::Simd)
- return translateScheduleModifier(*modType2);
- return mlir::omp::ScheduleModifier::none;
- }
-
- return translateScheduleModifier(modType1);
- }
+ using Schedule = omp::clause::Schedule;
+ const auto &modifier =
+ std::get<std::optional<Schedule::OrderingModifier>>(clause.t);
+ if (modifier)
+ return translateScheduleModifier(*modifier);
return mlir::omp::ScheduleModifier::none;
}
static mlir::omp::ScheduleModifier
getSimdModifier(const omp::clause::Schedule &clause) {
- using ScheduleModifier = omp::clause::Schedule::ScheduleModifier;
- const auto &modifier = std::get<std::optional<ScheduleModifier>>(clause.t);
- // Either of the two possible modifiers in the input can be the SIMD modifier,
- // so look in either one, and return simd if we find one. Not found = return
- // "none".
- if (modifier) {
- using ModType = omp::clause::Schedule::ModType;
- const auto &modType1 = std::get<ModType>(modifier->t);
- if (modType1 == ModType::Simd)
- return mlir::omp::ScheduleModifier::simd;
-
- const auto &modType2 = std::get<std::optional<ModType>>(modifier->t);
- if (modType2 && *modType2 == ModType::Simd)
- return mlir::omp::ScheduleModifier::simd;
- }
+ using Schedule = omp::clause::Schedule;
+ const auto &modifier =
+ std::get<std::optional<Schedule::ChunkModifier>>(clause.t);
+ if (modifier && *modifier == Schedule::ChunkModifier::Simd)
+ return mlir::omp::ScheduleModifier::simd;
return mlir::omp::ScheduleModifier::none;
}
@@ -94,36 +70,31 @@ genAllocateClause(Fortran::lower::AbstractConverter &converter,
mlir::Location currentLocation = converter.getCurrentLocation();
Fortran::lower::StatementContext stmtCtx;
- const omp::ObjectList &objectList = std::get<omp::ObjectList>(clause.t);
- const auto &modifier =
- std::get<std::optional<omp::clause::Allocate::Modifier>>(clause.t);
-
- // If the allocate modifier is present, check if we only use the allocator
- // submodifier. ALIGN in this context is unimplemented
- const bool onlyAllocator =
- modifier &&
- std::holds_alternative<omp::clause::Allocate::Modifier::Allocator>(
- modifier->u);
+ auto &objects = std::get<omp::ObjectList>(clause.t);
- if (modifier && !onlyAllocator) {
+ using Allocate = omp::clause::Allocate;
+ // ALIGN in this context is unimplemented
+ if (std::get<std::optional<Allocate::AlignModifier>>(clause.t))
TODO(currentLocation, "OmpAllocateClause ALIGN modifier");
- }
// Check if allocate clause has allocator specified. If so, add it
// to list of allocators, otherwise, add default allocator to
// list of allocators.
- if (onlyAllocator) {
- const auto &value =
- std::get<omp::clause::Allocate::Modifier::Allocator>(modifier->u);
- mlir::Value operand =
- fir::getBase(converter.genExprValue(value.v, stmtCtx));
- allocatorOperands.append(objectList.size(), operand);
+ using SimpleModifier = Allocate::AllocatorSimpleModifier;
+ using ComplexModifier = Allocate::AllocatorComplexModifier;
+ if (auto &mod = std::get<std::optional<SimpleModifier>>(clause.t)) {
+ mlir::Value operand = fir::getBase(converter.genExprValue(*mod, stmtCtx));
+ allocatorOperands.append(objects.size(), operand);
+ } else if (auto &mod = std::get<std::optional<ComplexModifier>>(clause.t)) {
+ mlir::Value operand = fir::getBase(converter.genExprValue(mod->v, stmtCtx));
+ allocatorOperands.append(objects.size(), operand);
} else {
mlir::Value operand = firOpBuilder.createIntegerConstant(
currentLocation, firOpBuilder.getI32Type(), 1);
- allocatorOperands.append(objectList.size(), operand);
+ allocatorOperands.append(objects.size(), operand);
}
- genObjectList(objectList, converter, allocateOperands);
+
+ genObjectList(objects, converter, allocateOperands);
}
static mlir::omp::ClauseProcBindKindAttr
@@ -131,16 +102,16 @@ genProcBindKindAttr(fir::FirOpBuilder &firOpBuilder,
const omp::clause::ProcBind &clause) {
mlir::omp::ClauseProcBindKind procBindKind;
switch (clause.v) {
- case omp::clause::ProcBind::Type::Master:
+ case omp::clause::ProcBind::AffinityPolicy::Master:
procBindKind = mlir::omp::ClauseProcBindKind::Master;
break;
- case omp::clause::ProcBind::Type::Close:
+ case omp::clause::ProcBind::AffinityPolicy::Close:
procBindKind = mlir::omp::ClauseProcBindKind::Close;
break;
- case omp::clause::ProcBind::Type::Spread:
+ case omp::clause::ProcBind::AffinityPolicy::Spread:
procBindKind = mlir::omp::ClauseProcBindKind::Spread;
break;
- case omp::clause::ProcBind::Type::Primary:
+ case omp::clause::ProcBind::AffinityPolicy::Primary:
procBindKind = mlir::omp::ClauseProcBindKind::Primary;
break;
}
@@ -150,21 +121,22 @@ genProcBindKindAttr(fir::FirOpBuilder &firOpBuilder,
static mlir::omp::ClauseTaskDependAttr
genDependKindAttr(fir::FirOpBuilder &firOpBuilder,
- const omp::clause::Depend &clause) {
+ const omp::clause::Depend::TaskDependenceType kind) {
mlir::omp::ClauseTaskDepend pbKind;
- const auto &inOut = std::get<omp::clause::Depend::InOut>(clause.u);
- switch (std::get<omp::clause::Depend::Type>(inOut.t)) {
- case omp::clause::Depend::Type::In:
+ switch (kind) {
+ case omp::clause::Depend::TaskDependenceType::In:
pbKind = mlir::omp::ClauseTaskDepend::taskdependin;
break;
- case omp::clause::Depend::Type::Out:
+ case omp::clause::Depend::TaskDependenceType::Out:
pbKind = mlir::omp::ClauseTaskDepend::taskdependout;
break;
- case omp::clause::Depend::Type::Inout:
+ case omp::clause::Depend::TaskDependenceType::Inout:
pbKind = mlir::omp::ClauseTaskDepend::taskdependinout;
break;
- default:
- llvm_unreachable("unknown parser task dependence type");
+ case omp::clause::Depend::TaskDependenceType::Mutexinoutset:
+ case omp::clause::Depend::TaskDependenceType::Inoutset:
+ case omp::clause::Depend::TaskDependenceType::Depobj:
+ llvm_unreachable("unhandled parser task dependence type");
break;
}
return mlir::omp::ClauseTaskDependAttr::get(firOpBuilder.getContext(),
@@ -295,16 +267,16 @@ bool ClauseProcessor::processDefault() const {
if (auto *clause = findUniqueClause<omp::clause::Default>()) {
// Private, Firstprivate, Shared, None
switch (clause->v) {
- case omp::clause::Default::Type::Shared:
- case omp::clause::Default::Type::None:
+ case omp::clause::Default::DataSharingAttribute::Shared:
+ case omp::clause::Default::DataSharingAttribute::None:
// Default clause with shared or none do not require any handling since
// Shared is the default behavior in the IR and None is only required
// for semantic checks.
break;
- case omp::clause::Default::Type::Private:
+ case omp::clause::Default::DataSharingAttribute::Private:
// TODO Support default(private)
break;
- case omp::clause::Default::Type::Firstprivate:
+ case omp::clause::Default::DataSharingAttribute::Firstprivate:
// TODO Support default(firstprivate)
break;
}
@@ -337,13 +309,13 @@ bool ClauseProcessor::processDeviceType(
if (auto *clause = findUniqueClause<omp::clause::DeviceType>()) {
// Case: declare target ... device_type(any | host | nohost)
switch (clause->v) {
- case omp::clause::DeviceType::Type::Nohost:
+ case omp::clause::DeviceType::DeviceTypeDescription::Nohost:
result = mlir::omp::DeclareTargetDeviceType::nohost;
break;
- case omp::clause::DeviceType::Type::Host:
+ case omp::clause::DeviceType::DeviceTypeDescription::Host:
result = mlir::omp::DeclareTargetDeviceType::host;
break;
- case omp::clause::DeviceType::Type::Any:
+ case omp::clause::DeviceType::DeviceTypeDescription::Any:
result = mlir::omp::DeclareTargetDeviceType::any;
break;
}
@@ -391,7 +363,9 @@ bool ClauseProcessor::processNumTeams(Fortran::lower::StatementContext &stmtCtx,
// TODO Get lower and upper bounds for num_teams when parser is updated to
// accept both.
if (auto *clause = findUniqueClause<omp::clause::NumTeams>()) {
- result = fir::getBase(converter.genExprValue(clause->v, stmtCtx));
+ // auto lowerBound = std::get<std::optional<ExprTy>>(clause->t);
+ auto &upperBound = std::get<ExprTy>(clause->t);
+ result = fir::getBase(converter.genExprValue(upperBound, stmtCtx));
return true;
}
return false;
@@ -456,24 +430,23 @@ bool ClauseProcessor::processSchedule(
if (auto *clause = findUniqueClause<omp::clause::Schedule>()) {
fir::FirOpBuilder &firOpBuilder = converter.getFirOpBuilder();
mlir::MLIRContext *context = firOpBuilder.getContext();
- const auto &scheduleType =
- std::get<omp::clause::Schedule::ScheduleType>(clause->t);
+ const auto &scheduleType = std::get<omp::clause::Schedule::Kind>(clause->t);
mlir::omp::ClauseScheduleKind scheduleKind;
switch (scheduleType) {
- case omp::clause::Schedule::ScheduleType::Static:
+ case omp::clause::Schedule::Kind::Static:
scheduleKind = mlir::omp::ClauseScheduleKind::Static;
break;
- case omp::clause::Schedule::ScheduleType::Dynamic:
+ case omp::clause::Schedule::Kind::Dynamic:
scheduleKind = mlir::omp::ClauseScheduleKind::Dynamic;
break;
- case omp::clause::Schedule::ScheduleType::Guided:
+ case omp::clause::Schedule::Kind::Guided:
scheduleKind = mlir::omp::ClauseScheduleKind::Guided;
break;
- case omp::clause::Schedule::ScheduleType::Auto:
+ case omp::clause::Schedule::Kind::Auto:
scheduleKind = mlir::omp::ClauseScheduleKind::Auto;
break;
- case omp::clause::Schedule::ScheduleType::Runtime:
+ case omp::clause::Schedule::Kind::Runtime:
scheduleKind = mlir::omp::ClauseScheduleKind::Runtime;
break;
}
@@ -749,13 +722,15 @@ bool ClauseProcessor::processDepend(
return findRepeatableClause<omp::clause::Depend>(
[&](const omp::clause::Depend &clause,
const Fortran::parser::CharBlock &) {
- assert(std::holds_alternative<omp::clause::Depend::InOut>(clause.u) &&
- "Only InOut is handled at the moment");
- const auto &inOut = std::get<omp::clause::Depend::InOut>(clause.u);
- const auto &objects = std::get<omp::ObjectList>(inOut.t);
+ using Depend = omp::clause::Depend;
+ assert(std::holds_alternative<Depend::WithLocators>(clause.u) &&
+ "Only the modern form is handled at the moment");
+ auto &modern = std::get<Depend::WithLocators>(clause.u);
+ auto kind = std::get<Depend::TaskDependenceType>(modern.t);
+ auto &objects = std::get<omp::ObjectList>(modern.t);
mlir::omp::ClauseTaskDependAttr dependTypeOperand =
- genDependKindAttr(firOpBuilder, clause);
+ genDependKindAttr(firOpBuilder, kind);
dependTypeOperands.append(objects.size(), dependTypeOperand);
for (const omp::Object &object : objects) {
@@ -844,39 +819,42 @@ bool ClauseProcessor::processMap(
const Fortran::parser::CharBlock &source) {
using Map = omp::clause::Map;
mlir::Location clauseLocation = converter.genLocation(source);
- const auto &oMapType = std::get<std::optional<Map::MapType>>(clause.t);
+ const auto &mapType = std::get<std::optional<Map::MapType>>(clause.t);
llvm::omp::OpenMPOffloadMappingFlags mapTypeBits =
llvm::omp::OpenMPOffloadMappingFlags::OMP_MAP_NONE;
// If the map type is specified, then process it else Tofrom is the
// default.
- if (oMapType) {
- const Map::MapType::Type &mapType =
- std::get<Map::MapType::Type>(oMapType->t);
- switch (mapType) {
- case Map::MapType::Type::To:
+ if (mapType) {
+ switch (*mapType) {
+ case Map::MapType::To:
mapTypeBits |= llvm::omp::OpenMPOffloadMappingFlags::OMP_MAP_TO;
break;
- case Map::MapType::Type::From:
+ case Map::MapType::From:
mapTypeBits |= llvm::omp::OpenMPOffloadMappingFlags::OMP_MAP_FROM;
break;
- case Map::MapType::Type::Tofrom:
+ case Map::MapType::Tofrom:
mapTypeBits |= llvm::omp::OpenMPOffloadMappingFlags::OMP_MAP_TO |
llvm::omp::OpenMPOffloadMappingFlags::OMP_MAP_FROM;
break;
- case Map::MapType::Type::Alloc:
- case Map::MapType::Type::Release:
+ case Map::MapType::Alloc:
+ case Map::MapType::Release:
// alloc and release is the default map_type for the Target Data
// Ops, i.e. if no bits for map_type is supplied then alloc/release
// is implicitly assumed based on the target directive. Default
// value for Target Data and Enter Data is alloc and for Exit Data
// it is release.
break;
- case Map::MapType::Type::Delete:
+ case Map::MapType::Delete:
mapTypeBits |= llvm::omp::OpenMPOffloadMappingFlags::OMP_MAP_DELETE;
}
- if (std::get<std::optional<Map::MapType::Always>>(oMapType->t))
- mapTypeBits |= llvm::omp::OpenMPOffloadMappingFlags::OMP_MAP_ALWAYS;
+ auto &modTypeMods =
+ std::get<std::optional<Map::MapTypeModifiers>>(clause.t);
+ if (modTypeMods) {
+ if (llvm::is_contained(*modTypeMods, Map::MapTypeModifier::Always))
+ mapTypeBits |=
+ llvm::omp::OpenMPOffloadMappingFlags::OMP_MAP_ALWAYS;
+ }
} else {
mapTypeBits |= llvm::omp::OpenMPOffloadMappingFlags::OMP_MAP_TO |
llvm::omp::OpenMPOffloadMappingFlags::OMP_MAP_FROM;
@@ -972,7 +950,7 @@ bool ClauseProcessor::processTo(
return findRepeatableClause<omp::clause::To>(
[&](const omp::clause::To &clause, const Fortran::parser::CharBlock &) {
// Case: declare target to(func, var1, var2)...
- gatherFuncAndVarSyms(clause.v,
+ gatherFuncAndVarSyms(std::get<ObjectList>(clause.t),
mlir::omp::DeclareTargetCaptureClause::to, result);
});
}
diff --git a/flang/lib/Lower/OpenMP/ClauseProcessor.h b/flang/lib/Lower/OpenMP/ClauseProcessor.h
index 8582716e6b9a77..c0c603feb296af 100644
--- a/flang/lib/Lower/OpenMP/ClauseProcessor.h
+++ b/flang/lib/Lower/OpenMP/ClauseProcessor.h
@@ -200,7 +200,8 @@ bool ClauseProcessor::processMotionClauses(
? llvm::omp::OpenMPOffloadMappingFlags::OMP_MAP_TO
: llvm::omp::OpenMPOffloadMappingFlags::OMP_MAP_FROM;
- for (const omp::Object &object : clause.v) {
+ auto &objects = std::get<ObjectList>(clause.t);
+ for (const omp::Object &object : objects) {
llvm::SmallVector<mlir::Value> bounds;
std::stringstream asFortran;
Fortran::lower::AddrAndBoundsInfo info =
diff --git a/flang/lib/Lower/OpenMP/ClauseT.h b/flang/lib/Lower/OpenMP/ClauseT.h
deleted file mode 100644
index 2aae29af29214a..00000000000000
--- a/flang/lib/Lower/OpenMP/ClauseT.h
+++ /dev/null
@@ -1,714 +0,0 @@
-//===- ClauseT -- clause template definitions -----------------------------===//
-//
-// 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
-//
-//===----------------------------------------------------------------------===//
-#ifndef FORTRAN_LOWER_OPENMP_CLAUSET_H
-#define FORTRAN_LOWER_OPENMP_CLAUSET_H
-
-#include "flang/Parser/parse-tree.h" // For enum reuse
-
-#include "llvm/ADT/ArrayRef.h"
-#include "llvm/ADT/DenseMap.h"
-#include "llvm/ADT/DenseSet.h"
-#include "llvm/ADT/STLExtras.h"
-#include "llvm/ADT/SmallVector.h"
-#include "llvm/Support/raw_ostream.h"
-
-#include <algorithm>
-#include <iterator>
-#include <optional>
-#include <tuple>
-#include <type_traits>
-#include <utility>
-#include <variant>
-
-#include "llvm/Frontend/OpenMP/OMP.h.inc"
-
-namespace tomp {
-
-template <typename T>
-using ListT = llvm::SmallVector<T, 0>;
-
-// A specialization of ObjectT<Id, Expr> must provide the following definitions:
-// {
-// using IdType = Id;
-// using ExprType = Expr;
-//
-// auto id() const -> Id {
-// return the identifier of the object (for use in tests for
-// presence/absence of the object)
-// }
-//
-// auto ref() const -> const Expr& {
-// return the expression accessing (referencing) the object
-// }
-// }
-//
-// For example, the ObjectT instance created for "var[x+1]" would have
-// the `id()` return the identifier for `var`, and the `ref()` return the
-// representation of the array-access `var[x+1]`.
-template <typename Id, typename Expr>
-struct ObjectT;
-
-template <typename I, typename E>
-using ObjectListT = ListT<ObjectT<I, E>>;
-
-namespace clause {
-// Helper objects
-
-template <typename I, typename E>
-struct DefinedOperatorT {
- struct DefinedOpName {
- using WrapperTrait = std::true_type;
- ObjectT<I, E> v;
- };
- using IntrinsicOperator = Fortran::parser::DefinedOperator::IntrinsicOperator;
- using UnionTrait = std::true_type;
- std::variant<DefinedOpName, IntrinsicOperator> u;
-};
-
-template <typename I, typename E>
-struct ProcedureDesignatorT {
- using WrapperTrait = std::true_type;
- ObjectT<I, E> v;
-};
-
-template <typename I, typename E>
-struct ReductionOperatorT {
- using UnionTrait = std::true_type;
- std::variant<DefinedOperatorT<I, E>, ProcedureDesignatorT<I, E>> u;
-};
-
-template <typename I, typename E>
-struct AcqRelT {
- using EmptyTrait = std::true_type;
-};
-template <typename I, typename E>
-struct AcquireT {
- using EmptyTrait = std::true_type;
-};
-template <typename I, typename E>
-struct AdjustArgsT {
- using EmptyTrait = std::true_type;
-};
-template <typename I, typename E>
-struct AffinityT {
- using EmptyTrait = std::true_type;
-};
-template <typename I, typename E>
-struct AlignT {
- using EmptyTrait = std::true_type;
-};
-template <typename I, typename E>
-struct AppendArgsT {
- using EmptyTrait = std::true_type;
-};
-template <typename I, typename E>
-struct AtT {
- using EmptyTrait = std::true_type;
-};
-template <typename I, typename E>
-struct BindT {
- using EmptyTrait = std::true_type;
-};
-template <typename I, typename E>
-struct CancellationConstructTypeT {
- using EmptyTrait = std::true_type;
-};
-template <typename I, typename E>
-struct CaptureT {
- using EmptyTrait = std::true_type;
-};
-template <typename I, typename E>
-struct CompareT {
- using EmptyTrait = std::true_type;
-};
-template <typename I, typename E>
-struct DepobjT {
- using EmptyTrait = std::true_type;
-};
-template <typename I, typename E>
-struct DestroyT {
- using EmptyTrait = std::true_type;
-};
-template <typename I, typename E>
-struct DetachT {
- using EmptyTrait = std::true_type;
-};
-template <typename I, typename E>
-struct DoacrossT {
- using EmptyTrait = std::true_type;
-};
-template <typename I, typename E>
-struct DynamicAllocatorsT {
- using EmptyTrait = std::true_type;
-};
-template <typename I, typename E>
-struct ExclusiveT {
- using EmptyTrait = std::true_type;
-};
-template <typename I, typename E>
-struct FailT {
- using EmptyTrait = std::true_type;
-};
-template <typename I, typename E>
-struct FlushT {
- using EmptyTrait = std::true_type;
-};
-template <typename I, typename E>
-struct FullT {
- using EmptyTrait = std::true_type;
-};
-template <typename I, typename E>
-struct InbranchT {
- using EmptyTrait = std::true_type;
-};
-template <typename I, typename E>
-struct InclusiveT {
- using EmptyTrait = std::true_type;
-};
-template <typename I, typename E>
-struct IndirectT {
- using EmptyTrait = std::true_type;
-};
-template <typename I, typename E>
-struct InitT {
- using EmptyTrait = std::true_type;
-};
-template <typename I, typename E>
-struct MatchT {
- using EmptyTrait = std::true_type;
-};
-template <typename I, typename E>
-struct MemoryOrderT {
- using EmptyTrait = std::true_type;
-};
-template <typename I, typename E>
-struct MergeableT {
- using EmptyTrait = std::true_type;
-};
-template <typename I, typename E>
-struct MessageT {
- using EmptyTrait = std::true_type;
-};
-template <typename I, typename E>
-struct NogroupT {
- using EmptyTrait = std::true_type;
-};
-template <typename I, typename E>
-struct NotinbranchT {
- using EmptyTrait = std::true_type;
-};
-template <typename I, typename E>
-struct NowaitT {
- using EmptyTrait = std::true_type;
-};
-template <typename I, typename E>
-struct OmpxAttributeT {
- using EmptyTrait = std::true_type;
-};
-template <typename I, typename E>
-struct OmpxBareT {
- using EmptyTrait = std::true_type;
-};
-template <typename I, typename E>
-struct ReadT {
- using EmptyTrait = std::true_type;
-};
-template <typename I, typename E>
-struct RelaxedT {
- using EmptyTrait = std::true_type;
-};
-template <typename I, typename E>
-struct ReleaseT {
- using EmptyTrait = std::true_type;
-};
-template <typename I, typename E>
-struct ReverseOffloadT {
- using EmptyTrait = std::true_type;
-};
-template <typename I, typename E>
-struct SeqCstT {
- using EmptyTrait = std::true_type;
-};
-template <typename I, typename E>
-struct SeverityT {
- using EmptyTrait = std::true_type;
-};
-template <typename I, typename E>
-struct SimdT {
- using EmptyTrait = std::true_type;
-};
-template <typename I, typename E>
-struct ThreadprivateT {
- using EmptyTrait = std::true_type;
-};
-template <typename I, typename E>
-struct ThreadsT {
- using EmptyTrait = std::true_type;
-};
-template <typename I, typename E>
-struct UnifiedAddressT {
- using EmptyTrait = std::true_type;
-};
-template <typename I, typename E>
-struct UnifiedSharedMemoryT {
- using EmptyTrait = std::true_type;
-};
-template <typename I, typename E>
-struct UnknownT {
- using EmptyTrait = std::true_type;
-};
-template <typename I, typename E>
-struct UntiedT {
- using EmptyTrait = std::true_type;
-};
-template <typename I, typename E>
-struct UpdateT {
- using EmptyTrait = std::true_type;
-};
-template <typename I, typename E>
-struct UseT {
- using EmptyTrait = std::true_type;
-};
-template <typename I, typename E>
-struct UsesAllocatorsT {
- using EmptyTrait = std::true_type;
-};
-template <typename I, typename E>
-struct WeakT {
- using EmptyTrait = std::true_type;
-};
-template <typename I, typename E>
-struct WhenT {
- using EmptyTrait = std::true_type;
-};
-template <typename I, typename E>
-struct WriteT {
- using EmptyTrait = std::true_type;
-};
-
-template <typename I, typename E>
-struct AlignedT {
- using TupleTrait = std::true_type;
- std::tuple<ObjectListT<I, E>, std::optional<E>> t;
-};
-
-template <typename I, typename E>
-struct AllocateT {
- struct Modifier {
- struct Allocator {
- using WrapperTrait = std::true_type;
- E v;
- };
- struct Align {
- using WrapperTrait = std::true_type;
- E v;
- };
- struct ComplexModifier {
- using TupleTrait = std::true_type;
- std::tuple<Allocator, Align> t;
- };
- using UnionTrait = std::true_type;
- std::variant<Allocator, ComplexModifier, Align> u;
- };
- using TupleTrait = std::true_type;
- std::tuple<std::optional<Modifier>, ObjectListT<I, E>> t;
-};
-
-template <typename I, typename E>
-struct AllocatorT {
- using WrapperTrait = std::true_type;
- E v;
-};
-
-template <typename I, typename E>
-struct AtomicDefaultMemOrderT {
- using WrapperTrait = std::true_type;
- using OmpAtomicDefaultMemOrderType =
- Fortran::common::OmpAtomicDefaultMemOrderType;
- OmpAtomicDefaultMemOrderType v;
-};
-
-template <typename I, typename E>
-struct CollapseT {
- using WrapperTrait = std::true_type;
- E v;
-};
-
-template <typename I, typename E>
-struct CopyinT {
- using WrapperTrait = std::true_type;
- ObjectListT<I, E> v;
-};
-
-template <typename I, typename E>
-struct CopyprivateT {
- using WrapperTrait = std::true_type;
- ObjectListT<I, E> v;
-};
-
-template <typename I, typename E>
-struct DefaultmapT {
- using ImplicitBehavior =
- Fortran::parser::OmpDefaultmapClause::ImplicitBehavior;
- using VariableCategory =
- Fortran::parser::OmpDefaultmapClause::VariableCategory;
- using TupleTrait = std::true_type;
- std::tuple<ImplicitBehavior, std::optional<VariableCategory>> t;
-};
-
-template <typename I, typename E>
-struct DefaultT {
- using Type = Fortran::parser::OmpDefaultClause::Type;
- using WrapperTrait = std::true_type;
- Type v;
-};
-
-template <typename I, typename E>
-struct DependT {
- struct Source {
- using EmptyTrait = std::true_type;
- };
- struct Sink {
- using Length = std::tuple<DefinedOperatorT<I, E>, E>;
- using Vec = std::tuple<ObjectT<I, E>, std::optional<Length>>;
- using WrapperTrait = std::true_type;
- ListT<Vec> v;
- };
- using Type = Fortran::parser::OmpDependenceType::Type;
- struct InOut {
- using TupleTrait = std::true_type;
- std::tuple<Type, ObjectListT<I, E>> t;
- };
- using UnionTrait = std::true_type;
- std::variant<Source, Sink, InOut> u;
-};
-
-template <typename I, typename E>
-struct DeviceT {
- using DeviceModifier = Fortran::parser::OmpDeviceClause::DeviceModifier;
- using TupleTrait = std::true_type;
- std::tuple<std::optional<DeviceModifier>, E> t;
-};
-
-template <typename I, typename E>
-struct DeviceTypeT {
- using Type = Fortran::parser::OmpDeviceTypeClause::Type;
- using WrapperTrait = std::true_type;
- Type v;
-};
-
-template <typename I, typename E>
-struct DistScheduleT {
- using WrapperTrait = std::true_type;
- std::optional<E> v;
-};
-
-template <typename I, typename E>
-struct EnterT {
- using WrapperTrait = std::true_type;
- ObjectListT<I, E> v;
-};
-
-template <typename I, typename E>
-struct FilterT {
- using WrapperTrait = std::true_type;
- E v;
-};
-
-template <typename I, typename E>
-struct FinalT {
- using WrapperTrait = std::true_type;
- E v;
-};
-
-template <typename I, typename E>
-struct FirstprivateT {
- using WrapperTrait = std::true_type;
- ObjectListT<I, E> v;
-};
-
-template <typename I, typename E>
-struct FromT {
- using WrapperTrait = std::true_type;
- ObjectListT<I, E> v;
-};
-
-template <typename I, typename E>
-struct GrainsizeT {
- using WrapperTrait = std::true_type;
- E v;
-};
-
-template <typename I, typename E>
-struct HasDeviceAddrT {
- using WrapperTrait = std::true_type;
- ObjectListT<I, E> v;
-};
-
-template <typename I, typename E>
-struct HintT {
- using WrapperTrait = std::true_type;
- E v;
-};
-
-template <typename I, typename E>
-struct IfT {
- using DirectiveNameModifier =
- Fortran::parser::OmpIfClause::DirectiveNameModifier;
- using TupleTrait = std::true_type;
- std::tuple<std::optional<DirectiveNameModifier>, E> t;
-};
-
-template <typename I, typename E>
-struct InReductionT {
- using TupleTrait = std::true_type;
- std::tuple<ReductionOperatorT<I, E>, ObjectListT<I, E>> t;
-};
-
-template <typename I, typename E>
-struct IsDevicePtrT {
- using WrapperTrait = std::true_type;
- ObjectListT<I, E> v;
-};
-
-template <typename I, typename E>
-struct LastprivateT {
- using WrapperTrait = std::true_type;
- ObjectListT<I, E> v;
-};
-
-template <typename I, typename E>
-struct LinearT {
- struct Modifier {
- using Type = Fortran::parser::OmpLinearModifier::Type;
- using WrapperTrait = std::true_type;
- Type v;
- };
- using TupleTrait = std::true_type;
- std::tuple<std::optional<Modifier>, ObjectListT<I, E>, std::optional<E>> t;
-};
-
-template <typename I, typename E>
-struct LinkT {
- using WrapperTrait = std::true_type;
- ObjectListT<I, E> v;
-};
-
-template <typename I, typename E>
-struct MapT {
- struct MapType {
- struct Always {
- using EmptyTrait = std::true_type;
- };
- using Type = Fortran::parser::OmpMapType::Type;
- using TupleTrait = std::true_type;
- std::tuple<std::optional<Always>, Type> t;
- };
- using TupleTrait = std::true_type;
- std::tuple<std::optional<MapType>, ObjectListT<I, E>> t;
-};
-
-template <typename I, typename E>
-struct NocontextT {
- using WrapperTrait = std::true_type;
- E v;
-};
-
-template <typename I, typename E>
-struct NontemporalT {
- using WrapperTrait = std::true_type;
- ObjectListT<I, E> v;
-};
-
-template <typename I, typename E>
-struct NovariantsT {
- using WrapperTrait = std::true_type;
- E v;
-};
-
-template <typename I, typename E>
-struct NumTasksT {
- using WrapperTrait = std::true_type;
- E v;
-};
-
-template <typename I, typename E>
-struct NumTeamsT {
- using WrapperTrait = std::true_type;
- E v;
-};
-
-template <typename I, typename E>
-struct NumThreadsT {
- using WrapperTrait = std::true_type;
- E v;
-};
-
-template <typename I, typename E>
-struct OmpxDynCgroupMemT {
- using WrapperTrait = std::true_type;
- E v;
-};
-
-template <typename I, typename E>
-struct OrderedT {
- using WrapperTrait = std::true_type;
- std::optional<E> v;
-};
-
-template <typename I, typename E>
-struct OrderT {
- using Kind = Fortran::parser::OmpOrderModifier::Kind;
- using Type = Fortran::parser::OmpOrderClause::Type;
- using TupleTrait = std::true_type;
- std::tuple<std::optional<Kind>, Type> t;
-};
-
-template <typename I, typename E>
-struct PartialT {
- using WrapperTrait = std::true_type;
- std::optional<E> v;
-};
-
-template <typename I, typename E>
-struct PriorityT {
- using WrapperTrait = std::true_type;
- E v;
-};
-
-template <typename I, typename E>
-struct PrivateT {
- using WrapperTrait = std::true_type;
- ObjectListT<I, E> v;
-};
-
-template <typename I, typename E>
-struct ProcBindT {
- using Type = Fortran::parser::OmpProcBindClause::Type;
- using WrapperTrait = std::true_type;
- Type v;
-};
-
-template <typename I, typename E>
-struct ReductionT {
- using TupleTrait = std::true_type;
- std::tuple<ReductionOperatorT<I, E>, ObjectListT<I, E>> t;
-};
-
-template <typename I, typename E>
-struct SafelenT {
- using WrapperTrait = std::true_type;
- E v;
-};
-
-template <typename I, typename E>
-struct ScheduleT {
- using ModType = Fortran::parser::OmpScheduleModifierType::ModType;
- struct ScheduleModifier {
- using TupleTrait = std::true_type;
- std::tuple<ModType, std::optional<ModType>> t;
- };
- using ScheduleType = Fortran::parser::OmpScheduleClause::ScheduleType;
- using TupleTrait = std::true_type;
- std::tuple<std::optional<ScheduleModifier>, ScheduleType, std::optional<E>> t;
-};
-
-template <typename I, typename E>
-struct SharedT {
- using WrapperTrait = std::true_type;
- ObjectListT<I, E> v;
-};
-
-template <typename I, typename E>
-struct SimdlenT {
- using WrapperTrait = std::true_type;
- E v;
-};
-
-template <typename I, typename E>
-struct SizesT {
- using WrapperTrait = std::true_type;
- ListT<E> v;
-};
-
-template <typename I, typename E>
-struct TaskReductionT {
- using TupleTrait = std::true_type;
- std::tuple<ReductionOperatorT<I, E>, ObjectListT<I, E>> t;
-};
-
-template <typename I, typename E>
-struct ThreadLimitT {
- using WrapperTrait = std::true_type;
- E v;
-};
-
-template <typename I, typename E>
-struct ToT {
- using WrapperTrait = std::true_type;
- ObjectListT<I, E> v;
-};
-
-template <typename I, typename E>
-struct UniformT {
- using WrapperTrait = std::true_type;
- ObjectListT<I, E> v;
-};
-
-template <typename I, typename E>
-struct UseDeviceAddrT {
- using WrapperTrait = std::true_type;
- ObjectListT<I, E> v;
-};
-
-template <typename I, typename E>
-struct UseDevicePtrT {
- using WrapperTrait = std::true_type;
- ObjectListT<I, E> v;
-};
-
-template <typename I, typename E>
-using UnionOfAllClausesT = std::variant<
- AcqRelT<I, E>, AcquireT<I, E>, AdjustArgsT<I, E>, AffinityT<I, E>,
- AlignT<I, E>, AlignedT<I, E>, AllocateT<I, E>, AllocatorT<I, E>,
- AppendArgsT<I, E>, AtT<I, E>, AtomicDefaultMemOrderT<I, E>, BindT<I, E>,
- CancellationConstructTypeT<I, E>, CaptureT<I, E>, CollapseT<I, E>,
- CompareT<I, E>, CopyprivateT<I, E>, CopyinT<I, E>, DefaultT<I, E>,
- DefaultmapT<I, E>, DependT<I, E>, DepobjT<I, E>, DestroyT<I, E>,
- DetachT<I, E>, DeviceT<I, E>, DeviceTypeT<I, E>, DistScheduleT<I, E>,
- DoacrossT<I, E>, DynamicAllocatorsT<I, E>, EnterT<I, E>, ExclusiveT<I, E>,
- FailT<I, E>, FilterT<I, E>, FinalT<I, E>, FirstprivateT<I, E>, FlushT<I, E>,
- FromT<I, E>, FullT<I, E>, GrainsizeT<I, E>, HasDeviceAddrT<I, E>,
- HintT<I, E>, IfT<I, E>, InReductionT<I, E>, InbranchT<I, E>,
- InclusiveT<I, E>, IndirectT<I, E>, InitT<I, E>, IsDevicePtrT<I, E>,
- LastprivateT<I, E>, LinearT<I, E>, LinkT<I, E>, MapT<I, E>, MatchT<I, E>,
- MemoryOrderT<I, E>, MergeableT<I, E>, MessageT<I, E>, NogroupT<I, E>,
- NowaitT<I, E>, NocontextT<I, E>, NontemporalT<I, E>, NotinbranchT<I, E>,
- NovariantsT<I, E>, NumTasksT<I, E>, NumTeamsT<I, E>, NumThreadsT<I, E>,
- OmpxAttributeT<I, E>, OmpxDynCgroupMemT<I, E>, OmpxBareT<I, E>,
- OrderT<I, E>, OrderedT<I, E>, PartialT<I, E>, PriorityT<I, E>,
- PrivateT<I, E>, ProcBindT<I, E>, ReadT<I, E>, ReductionT<I, E>,
- RelaxedT<I, E>, ReleaseT<I, E>, ReverseOffloadT<I, E>, SafelenT<I, E>,
- ScheduleT<I, E>, SeqCstT<I, E>, SeverityT<I, E>, SharedT<I, E>, SimdT<I, E>,
- SimdlenT<I, E>, SizesT<I, E>, TaskReductionT<I, E>, ThreadLimitT<I, E>,
- ThreadprivateT<I, E>, ThreadsT<I, E>, ToT<I, E>, UnifiedAddressT<I, E>,
- UnifiedSharedMemoryT<I, E>, UniformT<I, E>, UnknownT<I, E>, UntiedT<I, E>,
- UpdateT<I, E>, UseT<I, E>, UseDeviceAddrT<I, E>, UseDevicePtrT<I, E>,
- UsesAllocatorsT<I, E>, WeakT<I, E>, WhenT<I, E>, WriteT<I, E>>;
-} // namespace clause
-
-template <typename Id, typename Expr>
-struct ClauseT {
- llvm::omp::Clause id; // The numeric id of the clause
- using UnionTrait = std::true_type;
- clause::UnionOfAllClausesT<Id, Expr> u;
-};
-
-} // namespace tomp
-
-#endif // FORTRAN_LOWER_OPENMP_CLAUSET_H
diff --git a/flang/lib/Lower/OpenMP/Clauses.cpp b/flang/lib/Lower/OpenMP/Clauses.cpp
index 70f232a4858e1b..36a827c8352bb2 100644
--- a/flang/lib/Lower/OpenMP/Clauses.cpp
+++ b/flang/lib/Lower/OpenMP/Clauses.cpp
@@ -189,29 +189,96 @@ getBaseObject(const Object &object,
return std::nullopt;
}
-namespace clause {
-// Helper objects
-#ifdef EMPTY_CLASS
-#undef EMPTY_CLASS
-#endif
-#define EMPTY_CLASS(cls) \
- cls make(const parser::OmpClause::cls &, semantics::SemanticsContext &) { \
+// Helper macros
+#define MAKE_EMPTY_CLASS(cls, from_cls) \
+ cls make(const parser::OmpClause::from_cls &, \
+ semantics::SemanticsContext &) { \
+ static_assert(cls::EmptyTrait::value); \
return cls{}; \
} \
[[maybe_unused]] extern int xyzzy_semicolon_absorber
-#ifdef WRAPPER_CLASS
-#undef WRAPPER_CLASS
-#endif
-#define WRAPPER_CLASS(cls, content) \
+#define MAKE_INCOMPLETE_CLASS(cls, from_cls) \
+ cls make(const parser::OmpClause::from_cls &, \
+ semantics::SemanticsContext &) { \
+ static_assert(cls::IncompleteTrait::value); \
+ return cls{}; \
+ } \
[[maybe_unused]] extern int xyzzy_semicolon_absorber
-#define GEN_FLANG_CLAUSE_PARSER_CLASSES
-#include "llvm/Frontend/OpenMP/OMP.inc"
-#undef EMPTY_CLASS
-#undef WRAPPER_CLASS
+
+#define MS(x, y) CLAUSET_SCOPED_ENUM_MEMBER_CONVERT(x, y)
+#define MU(x, y) CLAUSET_UNSCOPED_ENUM_MEMBER_CONVERT(x, y)
+
+namespace clause {
+MAKE_EMPTY_CLASS(AcqRel, AcqRel);
+MAKE_EMPTY_CLASS(Acquire, Acquire);
+MAKE_EMPTY_CLASS(Capture, Capture);
+MAKE_EMPTY_CLASS(Compare, Compare);
+MAKE_EMPTY_CLASS(DynamicAllocators, DynamicAllocators);
+MAKE_EMPTY_CLASS(Full, Full);
+MAKE_EMPTY_CLASS(Inbranch, Inbranch);
+MAKE_EMPTY_CLASS(Mergeable, Mergeable);
+MAKE_EMPTY_CLASS(Nogroup, Nogroup);
+// MAKE_EMPTY_CLASS(NoOpenmp, ); // missing-in-parser
+// MAKE_EMPTY_CLASS(NoOpenmpRoutines, ); // missing-in-parser
+// MAKE_EMPTY_CLASS(NoParallelism, ); // missing-in-parser
+MAKE_EMPTY_CLASS(Notinbranch, Notinbranch);
+MAKE_EMPTY_CLASS(Nowait, Nowait);
+MAKE_EMPTY_CLASS(OmpxAttribute, OmpxAttribute);
+MAKE_EMPTY_CLASS(OmpxBare, OmpxBare);
+MAKE_EMPTY_CLASS(Read, Read);
+MAKE_EMPTY_CLASS(Relaxed, Relaxed);
+MAKE_EMPTY_CLASS(Release, Release);
+MAKE_EMPTY_CLASS(ReverseOffload, ReverseOffload);
+MAKE_EMPTY_CLASS(SeqCst, SeqCst);
+MAKE_EMPTY_CLASS(Simd, Simd);
+MAKE_EMPTY_CLASS(Threads, Threads);
+MAKE_EMPTY_CLASS(UnifiedAddress, UnifiedAddress);
+MAKE_EMPTY_CLASS(UnifiedSharedMemory, UnifiedSharedMemory);
+MAKE_EMPTY_CLASS(Unknown, Unknown);
+MAKE_EMPTY_CLASS(Untied, Untied);
+MAKE_EMPTY_CLASS(Weak, Weak);
+MAKE_EMPTY_CLASS(Write, Write);
+
+// Artificial clauses
+MAKE_EMPTY_CLASS(CancellationConstructType, CancellationConstructType);
+MAKE_EMPTY_CLASS(Depobj, Depobj);
+MAKE_EMPTY_CLASS(Flush, Flush);
+MAKE_EMPTY_CLASS(MemoryOrder, MemoryOrder);
+MAKE_EMPTY_CLASS(Threadprivate, Threadprivate);
+
+MAKE_INCOMPLETE_CLASS(AdjustArgs, AdjustArgs);
+MAKE_INCOMPLETE_CLASS(AppendArgs, AppendArgs);
+MAKE_INCOMPLETE_CLASS(Match, Match);
+// MAKE_INCOMPLETE_CLASS(Otherwise, ); // missing-in-parser
+MAKE_INCOMPLETE_CLASS(When, When);
DefinedOperator makeDefinedOperator(const parser::DefinedOperator &inp,
semantics::SemanticsContext &semaCtx) {
+ CLAUSET_ENUM_CONVERT( //
+ convert, parser::DefinedOperator::IntrinsicOperator,
+ DefinedOperator::IntrinsicOperator,
+ // clang-format off
+ MS(Add, Add)
+ MS(AND, AND)
+ MS(Concat, Concat)
+ MS(Divide, Divide)
+ MS(EQ, EQ)
+ MS(EQV, EQV)
+ MS(GE, GE)
+ MS(GT, GT)
+ MS(NOT, NOT)
+ MS(LE, LE)
+ MS(LT, LT)
+ MS(Multiply, Multiply)
+ MS(NE, NE)
+ MS(NEQV, NEQV)
+ MS(OR, OR)
+ MS(Power, Power)
+ MS(Subtract, Subtract)
+ // clang-format on
+ );
+
return std::visit(
common::visitors{
[&](const parser::DefinedOpName &s) {
@@ -219,7 +286,7 @@ DefinedOperator makeDefinedOperator(const parser::DefinedOperator &inp,
DefinedOperator::DefinedOpName{makeObject(s.v, semaCtx)}};
},
[&](const parser::DefinedOperator::IntrinsicOperator &s) {
- return DefinedOperator{s};
+ return DefinedOperator{convert(s)};
},
},
inp.u);
@@ -252,7 +319,26 @@ ReductionOperator makeReductionOperator(const parser::OmpReductionOperator &inp,
inp.u);
}
-// Actual clauses. Each T (where OmpClause::T exists) has its "make".
+// --------------------------------------------------------------------
+// Actual clauses. Each T (where tomp::T exists in ClauseT) has its "make".
+
+// Absent: missing-in-parser
+// AcqRel: empty
+// Acquire: empty
+// AdjustArgs: incomplate
+
+Affinity make(const parser::OmpClause::Affinity &inp,
+ semantics::SemanticsContext &semaCtx) {
+ // inp -> empty
+ llvm_unreachable("Empty: affinity");
+}
+
+Align make(const parser::OmpClause::Align &inp,
+ semantics::SemanticsContext &semaCtx) {
+ // inp -> empty
+ llvm_unreachable("Empty: align");
+}
+
Aligned make(const parser::OmpClause::Aligned &inp,
semantics::SemanticsContext &semaCtx) {
// inp.v -> parser::OmpAlignedClause
@@ -260,8 +346,8 @@ Aligned make(const parser::OmpClause::Aligned &inp,
auto &t1 = std::get<std::optional<parser::ScalarIntConstantExpr>>(inp.v.t);
return Aligned{{
- makeList(t0, semaCtx),
- maybeApply(makeExprFn(semaCtx), t1),
+ /*Alignment=*/maybeApply(makeExprFn(semaCtx), t1),
+ /*List=*/makeList(t0, semaCtx),
}};
}
@@ -272,39 +358,57 @@ Allocate make(const parser::OmpClause::Allocate &inp,
auto &t0 = std::get<std::optional<wrapped::AllocateModifier>>(inp.v.t);
auto &t1 = std::get<parser::OmpObjectList>(inp.v.t);
- auto convert = [&](auto &&s) -> Allocate::Modifier {
- using Modifier = Allocate::Modifier;
- using Allocator = Modifier::Allocator;
- using Align = Modifier::Align;
- using ComplexModifier = Modifier::ComplexModifier;
+ if (!t0) {
+ return Allocate{{/*AllocatorSimpleModifier=*/std::nullopt,
+ /*AllocatorComplexModifier=*/std::nullopt,
+ /*AlignModifier=*/std::nullopt,
+ /*List=*/makeList(t1, semaCtx)}};
+ }
- return std::visit(
- common::visitors{
- [&](const wrapped::AllocateModifier::Allocator &v) {
- return Modifier{Allocator{makeExpr(v.v, semaCtx)}};
- },
- [&](const wrapped::AllocateModifier::ComplexModifier &v) {
- auto &s0 = std::get<wrapped::AllocateModifier::Allocator>(v.t);
- auto &s1 = std::get<wrapped::AllocateModifier::Align>(v.t);
- return Modifier{ComplexModifier{{
- Allocator{makeExpr(s0.v, semaCtx)},
- Align{makeExpr(s1.v, semaCtx)},
- }}};
- },
- [&](const wrapped::AllocateModifier::Align &v) {
- return Modifier{Align{makeExpr(v.v, semaCtx)}};
- },
- },
- s.u);
- };
+ using Tuple = decltype(Allocate::t);
- return Allocate{{maybeApply(convert, t0), makeList(t1, semaCtx)}};
+ return Allocate{std::visit(
+ common::visitors{
+ // simple-modifier
+ [&](const wrapped::AllocateModifier::Allocator &v) -> Tuple {
+ return {/*AllocatorSimpleModifier=*/makeExpr(v.v, semaCtx),
+ /*AllocatorComplexModifier=*/std::nullopt,
+ /*AlignModifier=*/std::nullopt,
+ /*List=*/makeList(t1, semaCtx)};
+ },
+ // complex-modifier + align-modifier
+ [&](const wrapped::AllocateModifier::ComplexModifier &v) -> Tuple {
+ auto &s0 = std::get<wrapped::AllocateModifier::Allocator>(v.t);
+ auto &s1 = std::get<wrapped::AllocateModifier::Align>(v.t);
+ return {
+ /*AllocatorSimpleModifier=*/std::nullopt,
+ /*AllocatorComplexModifier=*/Allocator{makeExpr(s0.v, semaCtx)},
+ /*AlignModifier=*/Align{makeExpr(s1.v, semaCtx)},
+ /*List=*/makeList(t1, semaCtx)};
+ },
+ // align-modifier
+ [&](const wrapped::AllocateModifier::Align &v) -> Tuple {
+ return {/*AllocatorSimpleModifier=*/std::nullopt,
+ /*AllocatorComplexModifier=*/std::nullopt,
+ /*AlignModifier=*/Align{makeExpr(v.v, semaCtx)},
+ /*List=*/makeList(t1, semaCtx)};
+ },
+ },
+ t0->u)};
}
Allocator make(const parser::OmpClause::Allocator &inp,
semantics::SemanticsContext &semaCtx) {
// inp.v -> parser::ScalarIntExpr
- return Allocator{makeExpr(inp.v, semaCtx)};
+ return Allocator{/*Allocator=*/makeExpr(inp.v, semaCtx)};
+}
+
+// AppendArgs: incomplete
+
+At make(const parser::OmpClause::At &inp,
+ semantics::SemanticsContext &semaCtx) {
+ // inp -> empty
+ llvm_unreachable("Empty: at");
}
// Never called, but needed for using "make" as a Clause visitor.
@@ -312,25 +416,65 @@ Allocator make(const parser::OmpClause::Allocator &inp,
AtomicDefaultMemOrder make(const parser::OmpClause::AtomicDefaultMemOrder &inp,
semantics::SemanticsContext &semaCtx) {
// inp.v -> parser::OmpAtomicDefaultMemOrderClause
- return AtomicDefaultMemOrder{inp.v.v};
+ CLAUSET_ENUM_CONVERT( //
+ convert, common::OmpAtomicDefaultMemOrderType,
+ AtomicDefaultMemOrder::MemoryOrder,
+ // clang-format off
+ MS(AcqRel, AcqRel)
+ MS(Relaxed, Relaxed)
+ MS(SeqCst, SeqCst)
+ // clang-format on
+ );
+
+ return AtomicDefaultMemOrder{/*MemoryOrder=*/convert(inp.v.v)};
}
+Bind make(const parser::OmpClause::Bind &inp,
+ semantics::SemanticsContext &semaCtx) {
+ // inp -> empty
+ llvm_unreachable("Empty: bind");
+}
+
+// CancellationConstructType: empty
+// Capture: empty
+
Collapse make(const parser::OmpClause::Collapse &inp,
semantics::SemanticsContext &semaCtx) {
// inp.v -> parser::ScalarIntConstantExpr
- return Collapse{makeExpr(inp.v, semaCtx)};
+ return Collapse{/*N=*/makeExpr(inp.v, semaCtx)};
}
+// Compare: empty
+// Contains: missing-in-parser
+
Copyin make(const parser::OmpClause::Copyin &inp,
semantics::SemanticsContext &semaCtx) {
// inp.v -> parser::OmpObjectList
- return Copyin{makeList(inp.v, semaCtx)};
+ return Copyin{/*List=*/makeList(inp.v, semaCtx)};
}
Copyprivate make(const parser::OmpClause::Copyprivate &inp,
semantics::SemanticsContext &semaCtx) {
// inp.v -> parser::OmpObjectList
- return Copyprivate{makeList(inp.v, semaCtx)};
+ return Copyprivate{/*List=*/makeList(inp.v, semaCtx)};
+}
+
+Default make(const parser::OmpClause::Default &inp,
+ semantics::SemanticsContext &semaCtx) {
+ // inp.v -> parser::OmpDefaultClause
+ using wrapped = parser::OmpDefaultClause;
+
+ CLAUSET_ENUM_CONVERT( //
+ convert, wrapped::Type, Default::DataSharingAttribute,
+ // clang-format off
+ MS(Firstprivate, Firstprivate)
+ MS(None, None)
+ MS(Private, Private)
+ MS(Shared, Shared)
+ // clang-format on
+ );
+
+ return Default{/*DataSharingAttribute=*/convert(inp.v.v)};
}
Defaultmap make(const parser::OmpClause::Defaultmap &inp,
@@ -338,51 +482,111 @@ Defaultmap make(const parser::OmpClause::Defaultmap &inp,
// inp.v -> parser::OmpDefaultmapClause
using wrapped = parser::OmpDefaultmapClause;
+ CLAUSET_ENUM_CONVERT( //
+ convert1, wrapped::ImplicitBehavior, Defaultmap::ImplicitBehavior,
+ // clang-format off
+ MS(Alloc, Alloc)
+ MS(To, To)
+ MS(From, From)
+ MS(Tofrom, Tofrom)
+ MS(Firstprivate, Firstprivate)
+ MS(None, None)
+ MS(Default, Default)
+ // MS(, Present) missing-in-parser
+ // clang-format on
+ );
+
+ CLAUSET_ENUM_CONVERT( //
+ convert2, wrapped::VariableCategory, Defaultmap::VariableCategory,
+ // clang-format off
+ MS(Scalar, Scalar)
+ MS(Aggregate, Aggregate)
+ MS(Pointer, Pointer)
+ MS(Allocatable, Allocatable)
+ // clang-format on
+ );
+
auto &t0 = std::get<wrapped::ImplicitBehavior>(inp.v.t);
auto &t1 = std::get<std::optional<wrapped::VariableCategory>>(inp.v.t);
- return Defaultmap{{t0, t1}};
-}
-
-Default make(const parser::OmpClause::Default &inp,
- semantics::SemanticsContext &semaCtx) {
- // inp.v -> parser::OmpDefaultClause
- return Default{inp.v.v};
+ return Defaultmap{{/*ImplicitBehavior=*/convert1(t0),
+ /*VariableCategory=*/maybeApply(convert2, t1)}};
}
Depend make(const parser::OmpClause::Depend &inp,
semantics::SemanticsContext &semaCtx) {
// inp.v -> parser::OmpDependClause
using wrapped = parser::OmpDependClause;
-
- return std::visit(
+ using Variant = decltype(Depend::u);
+ // Iteration is the equivalent of parser::OmpDependSinkVec
+ using Iteration = Doacross::Vector::value_type; // LoopIterationT
+
+ CLAUSET_ENUM_CONVERT( //
+ convert1, parser::OmpDependenceType::Type, Depend::TaskDependenceType,
+ // clang-format off
+ MS(In, In)
+ MS(Out, Out)
+ MS(Inout, Inout)
+ // MS(, Mutexinoutset) // missing-in-parser
+ // MS(, Inputset) // missing-in-parser
+ // MS(, Depobj) // missing-in-parser
+ // clang-format on
+ );
+
+ return Depend{std::visit( //
common::visitors{
- [&](const wrapped::Source &s) { return Depend{Depend::Source{}}; },
- [&](const wrapped::Sink &s) {
- auto convert = [&](const parser::OmpDependSinkVec &v) {
+ // Doacross
+ [&](const wrapped::Source &s) -> Variant {
+ return Doacross{
+ {/*DependenceType=*/Doacross::DependenceType::Source,
+ /*Vector=*/{}}};
+ },
+ // Doacross
+ [&](const wrapped::Sink &s) -> Variant {
+ using DependLength = parser::OmpDependSinkVecLength;
+ auto convert2 = [&](const parser::OmpDependSinkVec &v) {
auto &t0 = std::get<parser::Name>(v.t);
- auto &t1 =
- std::get<std::optional<parser::OmpDependSinkVecLength>>(v.t);
- auto convert1 = [&](const parser::OmpDependSinkVecLength &u) {
+ auto &t1 = std::get<std::optional<DependLength>>(v.t);
+
+ auto convert3 = [&](const DependLength &u) {
auto &s0 = std::get<parser::DefinedOperator>(u.t);
auto &s1 = std::get<parser::ScalarIntConstantExpr>(u.t);
- return Depend::Sink::Length{makeDefinedOperator(s0, semaCtx),
- makeExpr(s1, semaCtx)};
+ return Iteration::Distance{
+ {makeDefinedOperator(s0, semaCtx), makeExpr(s1, semaCtx)}};
};
- return Depend::Sink::Vec{makeObject(t0, semaCtx),
- maybeApply(convert1, t1)};
+ return Iteration{
+ {makeObject(t0, semaCtx), maybeApply(convert3, t1)}};
};
- return Depend{Depend::Sink{makeList(s.v, convert)}};
+ return Doacross{{/*DependenceType=*/Doacross::DependenceType::Sink,
+ /*Vector=*/makeList(s.v, convert2)}};
},
- [&](const wrapped::InOut &s) {
+ // Depend::WithLocators
+ [&](const wrapped::InOut &s) -> Variant {
auto &t0 = std::get<parser::OmpDependenceType>(s.t);
auto &t1 = std::get<std::list<parser::Designator>>(s.t);
- auto convert = [&](const parser::Designator &t) {
+ auto convert4 = [&](const parser::Designator &t) {
return makeObject(t, semaCtx);
};
- return Depend{Depend::InOut{{t0.v, makeList(t1, convert)}}};
+ return Depend::WithLocators{
+ {/*TaskDependenceType=*/convert1(t0.v),
+ /*Iterator=*/std::nullopt,
+ /*LocatorList=*/makeList(t1, convert4)}};
},
},
- inp.v.u);
+ inp.v.u)};
+}
+
+// Depobj: empty
+
+Destroy make(const parser::OmpClause::Destroy &inp,
+ semantics::SemanticsContext &semaCtx) {
+ // inp -> empty
+ llvm_unreachable("Empty: destroy");
+}
+
+Detach make(const parser::OmpClause::Detach &inp,
+ semantics::SemanticsContext &semaCtx) {
+ // inp -> empty
+ llvm_unreachable("Empty: detach");
}
Device make(const parser::OmpClause::Device &inp,
@@ -390,100 +594,188 @@ Device make(const parser::OmpClause::Device &inp,
// inp.v -> parser::OmpDeviceClause
using wrapped = parser::OmpDeviceClause;
+ CLAUSET_ENUM_CONVERT( //
+ convert, parser::OmpDeviceClause::DeviceModifier, Device::DeviceModifier,
+ // clang-format off
+ MS(Ancestor, Ancestor)
+ MS(Device_Num, DeviceNum)
+ // clang-format on
+ );
auto &t0 = std::get<std::optional<wrapped::DeviceModifier>>(inp.v.t);
auto &t1 = std::get<parser::ScalarIntExpr>(inp.v.t);
- return Device{{t0, makeExpr(t1, semaCtx)}};
+ return Device{{/*DeviceModifier=*/maybeApply(convert, t0),
+ /*DeviceDescription=*/makeExpr(t1, semaCtx)}};
}
DeviceType make(const parser::OmpClause::DeviceType &inp,
semantics::SemanticsContext &semaCtx) {
// inp.v -> parser::OmpDeviceTypeClause
- return DeviceType{inp.v.v};
+ using wrapped = parser::OmpDeviceTypeClause;
+
+ CLAUSET_ENUM_CONVERT( //
+ convert, wrapped::Type, DeviceType::DeviceTypeDescription,
+ // clang-format off
+ MS(Any, Any)
+ MS(Host, Host)
+ MS(Nohost, Nohost)
+ // clang-format om
+ );
+ return DeviceType{/*DeviceTypeDescription=*/convert(inp.v.v)};
}
DistSchedule make(const parser::OmpClause::DistSchedule &inp,
semantics::SemanticsContext &semaCtx) {
// inp.v -> std::optional<parser::ScalarIntExpr>
- return DistSchedule{maybeApply(makeExprFn(semaCtx), inp.v)};
+ return DistSchedule{{/*Kind=*/DistSchedule::Kind::Static,
+ /*ChunkSize=*/maybeApply(makeExprFn(semaCtx), inp.v)}};
}
+Doacross make(const parser::OmpClause::Doacross &inp,
+ semantics::SemanticsContext &semaCtx) {
+ // inp -> empty
+ llvm_unreachable("Empty: doacross");
+}
+
+// DynamicAllocators: empty
+
Enter make(const parser::OmpClause::Enter &inp,
semantics::SemanticsContext &semaCtx) {
// inp.v -> parser::OmpObjectList
- return Enter{makeList(inp.v, semaCtx)};
+ return Enter{makeList(/*List=*/inp.v, semaCtx)};
+}
+
+Exclusive make(const parser::OmpClause::Exclusive &inp,
+ semantics::SemanticsContext &semaCtx) {
+ // inp -> empty
+ llvm_unreachable("Empty: exclusive");
+}
+
+Fail make(const parser::OmpClause::Fail &inp,
+ semantics::SemanticsContext &semaCtx) {
+ // inp -> empty
+ llvm_unreachable("Empty: fail");
}
Filter make(const parser::OmpClause::Filter &inp,
semantics::SemanticsContext &semaCtx) {
// inp.v -> parser::ScalarIntExpr
- return Filter{makeExpr(inp.v, semaCtx)};
+ return Filter{/*ThreadNum=*/makeExpr(inp.v, semaCtx)};
}
Final make(const parser::OmpClause::Final &inp,
semantics::SemanticsContext &semaCtx) {
// inp.v -> parser::ScalarLogicalExpr
- return Final{makeExpr(inp.v, semaCtx)};
+ return Final{/*Finalize=*/makeExpr(inp.v, semaCtx)};
}
Firstprivate make(const parser::OmpClause::Firstprivate &inp,
semantics::SemanticsContext &semaCtx) {
// inp.v -> parser::OmpObjectList
- return Firstprivate{makeList(inp.v, semaCtx)};
+ return Firstprivate{/*List=*/makeList(inp.v, semaCtx)};
}
+// Flush: empty
+
From make(const parser::OmpClause::From &inp,
semantics::SemanticsContext &semaCtx) {
// inp.v -> parser::OmpObjectList
- return From{makeList(inp.v, semaCtx)};
+ return From{{/*Expectation=*/std::nullopt, /*Mapper=*/std::nullopt,
+ /*Iterator=*/std::nullopt,
+ /*LocatorList=*/makeList(inp.v, semaCtx)}};
}
+// Full: empty
+
Grainsize make(const parser::OmpClause::Grainsize &inp,
semantics::SemanticsContext &semaCtx) {
// inp.v -> parser::ScalarIntExpr
- return Grainsize{makeExpr(inp.v, semaCtx)};
+ return Grainsize{{/*Prescriptiveness=*/std::nullopt,
+ /*GrainSize=*/makeExpr(inp.v, semaCtx)}};
}
HasDeviceAddr make(const parser::OmpClause::HasDeviceAddr &inp,
semantics::SemanticsContext &semaCtx) {
// inp.v -> parser::OmpObjectList
- return HasDeviceAddr{makeList(inp.v, semaCtx)};
+ return HasDeviceAddr{/*List=*/makeList(inp.v, semaCtx)};
}
Hint make(const parser::OmpClause::Hint &inp,
semantics::SemanticsContext &semaCtx) {
// inp.v -> parser::ConstantExpr
- return Hint{makeExpr(inp.v, semaCtx)};
+ return Hint{/*HintExpr=*/makeExpr(inp.v, semaCtx)};
}
+// Holds: missing-in-parser
+
If make(const parser::OmpClause::If &inp,
semantics::SemanticsContext &semaCtx) {
// inp.v -> parser::OmpIfClause
using wrapped = parser::OmpIfClause;
+ CLAUSET_ENUM_CONVERT( //
+ convert, wrapped::DirectiveNameModifier, llvm::omp::Directive,
+ // clang-format off
+ MS(Parallel, OMPD_parallel)
+ MS(Simd, OMPD_simd)
+ MS(Target, OMPD_target)
+ MS(TargetData, OMPD_target_data)
+ MS(TargetEnterData, OMPD_target_enter_data)
+ MS(TargetExitData, OMPD_target_exit_data)
+ MS(TargetUpdate, OMPD_target_update)
+ MS(Task, OMPD_task)
+ MS(Taskloop, OMPD_taskloop)
+ MS(Teams, OMPD_teams)
+ // clang-format on
+ );
auto &t0 = std::get<std::optional<wrapped::DirectiveNameModifier>>(inp.v.t);
auto &t1 = std::get<parser::ScalarLogicalExpr>(inp.v.t);
- return If{{t0, makeExpr(t1, semaCtx)}};
+ return If{{/*DirectiveNameModifier=*/maybeApply(convert, t0),
+ /*IfExpression=*/makeExpr(t1, semaCtx)}};
}
+// Inbranch: empty
+
+Inclusive make(const parser::OmpClause::Inclusive &inp,
+ semantics::SemanticsContext &semaCtx) {
+ // inp -> empty
+ llvm_unreachable("Empty: inclusive");
+}
+
+Indirect make(const parser::OmpClause::Indirect &inp,
+ semantics::SemanticsContext &semaCtx) {
+ // inp -> empty
+ llvm_unreachable("Empty: indirect");
+}
+
+Init make(const parser::OmpClause::Init &inp,
+ semantics::SemanticsContext &semaCtx) {
+ // inp -> empty
+ llvm_unreachable("Empty: init");
+}
+
+// Initializer: missing-in-parser
+
InReduction make(const parser::OmpClause::InReduction &inp,
semantics::SemanticsContext &semaCtx) {
// inp.v -> parser::OmpInReductionClause
auto &t0 = std::get<parser::OmpReductionOperator>(inp.v.t);
auto &t1 = std::get<parser::OmpObjectList>(inp.v.t);
return InReduction{
- {makeReductionOperator(t0, semaCtx), makeList(t1, semaCtx)}};
+ {/*ReductionIdentifier=*/makeReductionOperator(t0, semaCtx),
+ /*List=*/makeList(t1, semaCtx)}};
}
IsDevicePtr make(const parser::OmpClause::IsDevicePtr &inp,
semantics::SemanticsContext &semaCtx) {
// inp.v -> parser::OmpObjectList
- return IsDevicePtr{makeList(inp.v, semaCtx)};
+ return IsDevicePtr{/*List=*/makeList(inp.v, semaCtx)};
}
Lastprivate make(const parser::OmpClause::Lastprivate &inp,
semantics::SemanticsContext &semaCtx) {
// inp.v -> parser::OmpObjectList
- return Lastprivate{makeList(inp.v, semaCtx)};
+ return Lastprivate{{/*LastprivateModifier=*/std::nullopt,
+ /*List=*/makeList(inp.v, semaCtx)}};
}
Linear make(const parser::OmpClause::Linear &inp,
@@ -491,140 +783,243 @@ Linear make(const parser::OmpClause::Linear &inp,
// inp.v -> parser::OmpLinearClause
using wrapped = parser::OmpLinearClause;
- return std::visit(
+ CLAUSET_ENUM_CONVERT( //
+ convert, parser::OmpLinearModifier::Type, Linear::LinearModifier,
+ // clang-format off
+ MS(Ref, Ref)
+ MS(Val, Val)
+ MS(Uval, Uval)
+ // clang-format on
+ );
+
+ using Tuple = decltype(Linear::t);
+
+ return Linear{std::visit(
common::visitors{
- [&](const wrapped::WithModifier &s) {
- return Linear{{Linear::Modifier{s.modifier.v},
- makeList(s.names, makeObjectFn(semaCtx)),
- maybeApply(makeExprFn(semaCtx), s.step)}};
+ [&](const wrapped::WithModifier &s) -> Tuple {
+ return {
+ /*StepSimpleModifier=*/std::nullopt,
+ /*StepComplexModifier=*/maybeApply(makeExprFn(semaCtx), s.step),
+ /*LinearModifier=*/convert(s.modifier.v),
+ /*List=*/makeList(s.names, makeObjectFn(semaCtx))};
},
- [&](const wrapped::WithoutModifier &s) {
- return Linear{{std::nullopt,
- makeList(s.names, makeObjectFn(semaCtx)),
- maybeApply(makeExprFn(semaCtx), s.step)}};
+ [&](const wrapped::WithoutModifier &s) -> Tuple {
+ return {
+ /*StepSimpleModifier=*/maybeApply(makeExprFn(semaCtx), s.step),
+ /*StepComplexModifier=*/std::nullopt,
+ /*LinearModifier=*/std::nullopt,
+ /*List=*/makeList(s.names, makeObjectFn(semaCtx))};
},
},
- inp.v.u);
+ inp.v.u)};
}
Link make(const parser::OmpClause::Link &inp,
semantics::SemanticsContext &semaCtx) {
// inp.v -> parser::OmpObjectList
- return Link{makeList(inp.v, semaCtx)};
+ return Link{/*List=*/makeList(inp.v, semaCtx)};
}
Map make(const parser::OmpClause::Map &inp,
semantics::SemanticsContext &semaCtx) {
// inp.v -> parser::OmpMapClause
+
+ CLAUSET_ENUM_CONVERT( //
+ convert1, parser::OmpMapType::Type, Map::MapType,
+ // clang-format off
+ MS(To, To)
+ MS(From, From)
+ MS(Tofrom, Tofrom)
+ MS(Alloc, Alloc)
+ MS(Release, Release)
+ MS(Delete, Delete)
+ // clang-format on
+ );
+
+ // No convert2: MapTypeModifier is not an enum in parser.
+
auto &t0 = std::get<std::optional<parser::OmpMapType>>(inp.v.t);
auto &t1 = std::get<parser::OmpObjectList>(inp.v.t);
- auto convert = [](const parser::OmpMapType &s) {
- auto &s0 = std::get<std::optional<parser::OmpMapType::Always>>(s.t);
- auto &s1 = std::get<parser::OmpMapType::Type>(s.t);
- auto convertT = [](parser::OmpMapType::Always) {
- return Map::MapType::Always{};
- };
- return Map::MapType{{maybeApply(convertT, s0), s1}};
- };
- return Map{{maybeApply(convert, t0), makeList(t1, semaCtx)}};
+
+ if (!t0) {
+ return Map{{/*MapType=*/std::nullopt, /*MapTypeModifiers=*/std::nullopt,
+ /*Mapper=*/std::nullopt, /*Iterator=*/std::nullopt,
+ /*LocatorList=*/makeList(t1, semaCtx)}};
+ }
+
+ auto &s0 = std::get<std::optional<parser::OmpMapType::Always>>(t0->t);
+ auto &s1 = std::get<parser::OmpMapType::Type>(t0->t);
+
+ std::optional<Map::MapTypeModifiers> maybeList;
+ if (s0)
+ maybeList = Map::MapTypeModifiers{Map::MapTypeModifier::Always};
+
+ return Map{{/*MapType=*/convert1(s1),
+ /*MapTypeModifiers=*/maybeList,
+ /*Mapper=*/std::nullopt, /*Iterator=*/std::nullopt,
+ /*LocatorList=*/makeList(t1, semaCtx)}};
+}
+
+// Match: incomplete
+// MemoryOrder: empty
+// Mergeable: empty
+
+Message make(const parser::OmpClause::Message &inp,
+ semantics::SemanticsContext &semaCtx) {
+ // inp -> empty
+ llvm_unreachable("Empty: message");
}
Nocontext make(const parser::OmpClause::Nocontext &inp,
semantics::SemanticsContext &semaCtx) {
// inp.v -> parser::ScalarLogicalExpr
- return Nocontext{makeExpr(inp.v, semaCtx)};
+ return Nocontext{/*DoNotUpdateContext=*/makeExpr(inp.v, semaCtx)};
}
+// Nogroup: empty
+
Nontemporal make(const parser::OmpClause::Nontemporal &inp,
semantics::SemanticsContext &semaCtx) {
// inp.v -> std::list<parser::Name>
- return Nontemporal{makeList(inp.v, makeObjectFn(semaCtx))};
+ return Nontemporal{/*List=*/makeList(inp.v, makeObjectFn(semaCtx))};
}
+// NoOpenmp: missing-in-parser
+// NoOpenmpRoutines: missing-in-parser
+// NoParallelism: missing-in-parser
+// Notinbranch: empty
+
Novariants make(const parser::OmpClause::Novariants &inp,
semantics::SemanticsContext &semaCtx) {
// inp.v -> parser::ScalarLogicalExpr
- return Novariants{makeExpr(inp.v, semaCtx)};
+ return Novariants{/*DoNotUseVariant=*/makeExpr(inp.v, semaCtx)};
}
+// Nowait: empty
+
NumTasks make(const parser::OmpClause::NumTasks &inp,
semantics::SemanticsContext &semaCtx) {
// inp.v -> parser::ScalarIntExpr
- return NumTasks{makeExpr(inp.v, semaCtx)};
+ return NumTasks{{/*Prescriptiveness=*/std::nullopt,
+ /*NumTasks=*/makeExpr(inp.v, semaCtx)}};
}
NumTeams make(const parser::OmpClause::NumTeams &inp,
semantics::SemanticsContext &semaCtx) {
// inp.v -> parser::ScalarIntExpr
- return NumTeams{makeExpr(inp.v, semaCtx)};
+ return NumTeams{{/*LowerBound=*/std::nullopt,
+ /*UpperBound=*/makeExpr(inp.v, semaCtx)}};
}
NumThreads make(const parser::OmpClause::NumThreads &inp,
semantics::SemanticsContext &semaCtx) {
// inp.v -> parser::ScalarIntExpr
- return NumThreads{makeExpr(inp.v, semaCtx)};
+ return NumThreads{/*Nthreads=*/makeExpr(inp.v, semaCtx)};
}
+// OmpxAttribute: empty
+// OmpxBare: empty
+
OmpxDynCgroupMem make(const parser::OmpClause::OmpxDynCgroupMem &inp,
semantics::SemanticsContext &semaCtx) {
// inp.v -> parser::ScalarIntExpr
return OmpxDynCgroupMem{makeExpr(inp.v, semaCtx)};
}
-Ordered make(const parser::OmpClause::Ordered &inp,
- semantics::SemanticsContext &semaCtx) {
- // inp.v -> std::optional<parser::ScalarIntConstantExpr>
- return Ordered{maybeApply(makeExprFn(semaCtx), inp.v)};
-}
-
Order make(const parser::OmpClause::Order &inp,
semantics::SemanticsContext &semaCtx) {
// inp.v -> parser::OmpOrderClause
using wrapped = parser::OmpOrderClause;
+
+ CLAUSET_ENUM_CONVERT( //
+ convert1, parser::OmpOrderModifier::Kind, Order::OrderModifier,
+ // clang-format off
+ MS(Reproducible, Reproducible)
+ MS(Unconstrained, Unconstrained)
+ // clang-format on
+ );
+
+ CLAUSET_ENUM_CONVERT( //
+ convert2, wrapped::Type, Order::Ordering,
+ // clang-format off
+ MS(Concurrent, Concurrent)
+ // clang-format on
+ );
+
auto &t0 = std::get<std::optional<parser::OmpOrderModifier>>(inp.v.t);
auto &t1 = std::get<wrapped::Type>(inp.v.t);
- auto convert = [](const parser::OmpOrderModifier &s) -> Order::Kind {
- return std::get<parser::OmpOrderModifier::Kind>(s.u);
+
+ auto convert3 = [&](const parser::OmpOrderModifier &s) {
+ return std::visit(
+ [&](parser::OmpOrderModifier::Kind k) { return convert1(k); }, s.u);
};
- return Order{{maybeApply(convert, t0), t1}};
+ return Order{
+ {/*OrderModifier=*/maybeApply(convert3, t0), /*Ordering=*/convert2(t1)}};
}
+Ordered make(const parser::OmpClause::Ordered &inp,
+ semantics::SemanticsContext &semaCtx) {
+ // inp.v -> std::optional<parser::ScalarIntConstantExpr>
+ return Ordered{/*N=*/maybeApply(makeExprFn(semaCtx), inp.v)};
+}
+
+// Otherwise: incomplete, missing-in-parser
+
Partial make(const parser::OmpClause::Partial &inp,
semantics::SemanticsContext &semaCtx) {
// inp.v -> std::optional<parser::ScalarIntConstantExpr>
- return Partial{maybeApply(makeExprFn(semaCtx), inp.v)};
+ return Partial{/*UnrollFactor=*/maybeApply(makeExprFn(semaCtx), inp.v)};
}
Priority make(const parser::OmpClause::Priority &inp,
semantics::SemanticsContext &semaCtx) {
// inp.v -> parser::ScalarIntExpr
- return Priority{makeExpr(inp.v, semaCtx)};
+ return Priority{/*PriorityValue=*/makeExpr(inp.v, semaCtx)};
}
Private make(const parser::OmpClause::Private &inp,
semantics::SemanticsContext &semaCtx) {
// inp.v -> parser::OmpObjectList
- return Private{makeList(inp.v, semaCtx)};
+ return Private{/*List=*/makeList(inp.v, semaCtx)};
}
ProcBind make(const parser::OmpClause::ProcBind &inp,
semantics::SemanticsContext &semaCtx) {
// inp.v -> parser::OmpProcBindClause
- return ProcBind{inp.v.v};
+ using wrapped = parser::OmpProcBindClause;
+
+ CLAUSET_ENUM_CONVERT( //
+ convert, wrapped::Type, ProcBind::AffinityPolicy,
+ // clang-format off
+ MS(Close, Close)
+ MS(Master, Master)
+ MS(Spread, Spread)
+ MS(Primary, Primary)
+ // clang-format on
+ );
+ return ProcBind{/*AffinityPolicy=*/convert(inp.v.v)};
}
+// Read: empty
+
Reduction make(const parser::OmpClause::Reduction &inp,
semantics::SemanticsContext &semaCtx) {
// inp.v -> parser::OmpReductionClause
auto &t0 = std::get<parser::OmpReductionOperator>(inp.v.t);
auto &t1 = std::get<parser::OmpObjectList>(inp.v.t);
- return Reduction{{makeReductionOperator(t0, semaCtx), makeList(t1, semaCtx)}};
+ return Reduction{{/*ReductionIdentifier=*/makeReductionOperator(t0, semaCtx),
+ /*ReductionModifier=*/std::nullopt,
+ /*List=*/makeList(t1, semaCtx)}};
}
+// Relaxed: empty
+// Release: empty
+// ReverseOffload: empty
+
Safelen make(const parser::OmpClause::Safelen &inp,
semantics::SemanticsContext &semaCtx) {
// inp.v -> parser::ScalarIntConstantExpr
- return Safelen{makeExpr(inp.v, semaCtx)};
+ return Safelen{/*Length=*/makeExpr(inp.v, semaCtx)};
}
Schedule make(const parser::OmpClause::Schedule &inp,
@@ -632,41 +1027,97 @@ Schedule make(const parser::OmpClause::Schedule &inp,
// inp.v -> parser::OmpScheduleClause
using wrapped = parser::OmpScheduleClause;
+ CLAUSET_ENUM_CONVERT( //
+ convert1, wrapped::ScheduleType, Schedule::Kind,
+ // clang-format off
+ MS(Static, Static)
+ MS(Dynamic, Dynamic)
+ MS(Guided, Guided)
+ MS(Auto, Auto)
+ MS(Runtime, Runtime)
+ // clang-format on
+ );
+
+ CLAUSET_ENUM_CONVERT( //
+ convert2, parser::OmpScheduleModifierType::ModType,
+ Schedule::OrderingModifier,
+ // clang-format off
+ MS(Monotonic, Monotonic)
+ MS(Nonmonotonic, Nonmonotonic)
+ // clang-format on
+ );
+
+ CLAUSET_ENUM_CONVERT( //
+ convert3, parser::OmpScheduleModifierType::ModType,
+ Schedule::ChunkModifier,
+ // clang-format off
+ MS(Simd, Simd)
+ // clang-format on
+ );
+
auto &t0 = std::get<std::optional<parser::OmpScheduleModifier>>(inp.v.t);
auto &t1 = std::get<wrapped::ScheduleType>(inp.v.t);
auto &t2 = std::get<std::optional<parser::ScalarIntExpr>>(inp.v.t);
- auto convert = [](auto &&s) -> Schedule::ScheduleModifier {
- auto &s0 = std::get<parser::OmpScheduleModifier::Modifier1>(s.t);
- auto &s1 =
- std::get<std::optional<parser::OmpScheduleModifier::Modifier2>>(s.t);
+ if (!t0) {
+ return Schedule{{/*Kind=*/convert1(t1), /*OrderingModifier=*/std::nullopt,
+ /*ChunkModifier=*/std::nullopt,
+ /*ChunkSize=*/maybeApply(makeExprFn(semaCtx), t2)}};
+ }
- auto convert1 = [](auto &&v) { // Modifier1 or Modifier2
- return v.v.v;
- };
- return Schedule::ScheduleModifier{{s0.v.v, maybeApply(convert1, s1)}};
- };
+ // The members of parser::OmpScheduleModifier correspond to OrderingModifier,
+ // and ChunkModifier, but they can appear in any order.
+ auto &m1 = std::get<parser::OmpScheduleModifier::Modifier1>(t0->t);
+ auto &m2 =
+ std::get<std::optional<parser::OmpScheduleModifier::Modifier2>>(t0->t);
+
+ std::optional<Schedule::OrderingModifier> omod;
+ std::optional<Schedule::ChunkModifier> cmod;
+
+ if (m1.v.v == parser::OmpScheduleModifierType::ModType::Simd) {
+ // m1 is chunk-modifier
+ cmod = convert3(m1.v.v);
+ if (m2)
+ omod = convert2(m2->v.v);
+ } else {
+ // m1 is ordering-modifier
+ omod = convert2(m1.v.v);
+ if (m2)
+ cmod = convert3(m2->v.v);
+ }
+
+ return Schedule{{/*Kind=*/convert1(t1),
+ /*OrderingModifier=*/omod,
+ /*ChunkModifier=*/cmod,
+ /*ChunkSize=*/maybeApply(makeExprFn(semaCtx), t2)}};
+}
- return Schedule{
- {maybeApply(convert, t0), t1, maybeApply(makeExprFn(semaCtx), t2)}};
+// SeqCst: empty
+
+Severity make(const parser::OmpClause::Severity &inp,
+ semantics::SemanticsContext &semaCtx) {
+ // inp -> empty
+ llvm_unreachable("Empty: severity");
}
Shared make(const parser::OmpClause::Shared &inp,
semantics::SemanticsContext &semaCtx) {
// inp.v -> parser::OmpObjectList
- return Shared{makeList(inp.v, semaCtx)};
+ return Shared{/*List=*/makeList(inp.v, semaCtx)};
}
+// Simd: empty
+
Simdlen make(const parser::OmpClause::Simdlen &inp,
semantics::SemanticsContext &semaCtx) {
// inp.v -> parser::ScalarIntConstantExpr
- return Simdlen{makeExpr(inp.v, semaCtx)};
+ return Simdlen{/*Length=*/makeExpr(inp.v, semaCtx)};
}
Sizes make(const parser::OmpClause::Sizes &inp,
semantics::SemanticsContext &semaCtx) {
// inp.v -> std::list<parser::ScalarIntExpr>
- return Sizes{makeList(inp.v, makeExprFn(semaCtx))};
+ return Sizes{/*SizeList=*/makeList(inp.v, makeExprFn(semaCtx))};
}
TaskReduction make(const parser::OmpClause::TaskReduction &inp,
@@ -675,38 +1126,72 @@ TaskReduction make(const parser::OmpClause::TaskReduction &inp,
auto &t0 = std::get<parser::OmpReductionOperator>(inp.v.t);
auto &t1 = std::get<parser::OmpObjectList>(inp.v.t);
return TaskReduction{
- {makeReductionOperator(t0, semaCtx), makeList(t1, semaCtx)}};
+ {/*ReductionIdentifier=*/makeReductionOperator(t0, semaCtx),
+ /*List=*/makeList(t1, semaCtx)}};
}
ThreadLimit make(const parser::OmpClause::ThreadLimit &inp,
semantics::SemanticsContext &semaCtx) {
// inp.v -> parser::ScalarIntExpr
- return ThreadLimit{makeExpr(inp.v, semaCtx)};
+ return ThreadLimit{/*Threadlim=*/makeExpr(inp.v, semaCtx)};
}
+// Threadprivate: empty
+// Threads: empty
+
To make(const parser::OmpClause::To &inp,
semantics::SemanticsContext &semaCtx) {
// inp.v -> parser::OmpObjectList
- return To{makeList(inp.v, semaCtx)};
+ return To{{/*Expectation=*/std::nullopt, /*Mapper=*/std::nullopt,
+ /*Iterator=*/std::nullopt,
+ /*LocatorList=*/makeList(inp.v, semaCtx)}};
}
+// UnifiedAddress: empty
+// UnifiedSharedMemory: empty
+
Uniform make(const parser::OmpClause::Uniform &inp,
semantics::SemanticsContext &semaCtx) {
// inp.v -> std::list<parser::Name>
- return Uniform{makeList(inp.v, makeObjectFn(semaCtx))};
+ return Uniform{/*ParameterList=*/makeList(inp.v, makeObjectFn(semaCtx))};
+}
+
+// Unknown: empty
+// Untied: empty
+
+Update make(const parser::OmpClause::Update &inp,
+ semantics::SemanticsContext &semaCtx) {
+ // inp -> empty
+ return Update{/*TaskDependenceType=*/std::nullopt};
+}
+
+Use make(const parser::OmpClause::Use &inp,
+ semantics::SemanticsContext &semaCtx) {
+ // inp -> empty
+ llvm_unreachable("Empty: use");
}
UseDeviceAddr make(const parser::OmpClause::UseDeviceAddr &inp,
semantics::SemanticsContext &semaCtx) {
// inp.v -> parser::OmpObjectList
- return UseDeviceAddr{makeList(inp.v, semaCtx)};
+ return UseDeviceAddr{/*List=*/makeList(inp.v, semaCtx)};
}
UseDevicePtr make(const parser::OmpClause::UseDevicePtr &inp,
semantics::SemanticsContext &semaCtx) {
// inp.v -> parser::OmpObjectList
- return UseDevicePtr{makeList(inp.v, semaCtx)};
+ return UseDevicePtr{/*List=*/makeList(inp.v, semaCtx)};
+}
+
+UsesAllocators make(const parser::OmpClause::UsesAllocators &inp,
+ semantics::SemanticsContext &semaCtx) {
+ // inp -> empty
+ llvm_unreachable("Empty: uses_allocators");
}
+
+// Weak: empty
+// When: incomplete
+// Write: empty
} // namespace clause
Clause makeClause(const Fortran::parser::OmpClause &cls,
diff --git a/flang/lib/Lower/OpenMP/Clauses.h b/flang/lib/Lower/OpenMP/Clauses.h
index 3fba593b5349c1..af1318226e8cb1 100644
--- a/flang/lib/Lower/OpenMP/Clauses.h
+++ b/flang/lib/Lower/OpenMP/Clauses.h
@@ -8,8 +8,6 @@
#ifndef FORTRAN_LOWER_OPENMP_CLAUSES_H
#define FORTRAN_LOWER_OPENMP_CLAUSES_H
-#include "ClauseT.h"
-
#include "flang/Evaluate/expression.h"
#include "flang/Parser/parse-tree.h"
#include "flang/Semantics/expression.h"
@@ -17,6 +15,7 @@
#include "flang/Semantics/symbol.h"
#include "llvm/ADT/STLExtras.h"
+#include "llvm/Frontend/OpenMP/ClauseT.h"
#include <optional>
#include <type_traits>
@@ -28,32 +27,32 @@ using SomeType = evaluate::SomeType;
using SomeExpr = semantics::SomeExpr;
using MaybeExpr = semantics::MaybeExpr;
-using SymIdent = semantics::Symbol *;
-using SymReference = SomeExpr;
+using TypeTy = SomeType;
+using IdTy = semantics::Symbol *;
+using ExprTy = SomeExpr;
template <typename T>
using List = tomp::ListT<T>;
} // namespace Fortran::lower::omp
-namespace tomp {
+namespace tomp::type {
template <>
-struct ObjectT<Fortran::lower::omp::SymIdent,
- Fortran::lower::omp::SymReference> {
- using IdType = Fortran::lower::omp::SymIdent;
- using ExprType = Fortran::lower::omp::SymReference;
+struct ObjectT<Fortran::lower::omp::IdTy, Fortran::lower::omp::ExprTy> {
+ using IdTy = Fortran::lower::omp::IdTy;
+ using ExprTy = Fortran::lower::omp::ExprTy;
- const IdType &id() const { return symbol; }
- const std::optional<ExprType> &ref() const { return designator; }
+ const IdTy &id() const { return symbol; }
+ const std::optional<ExprTy> &ref() const { return designator; }
- IdType symbol;
- std::optional<ExprType> designator;
+ IdTy symbol;
+ std::optional<ExprTy> designator;
};
-} // namespace tomp
+} // namespace tomp::type
namespace Fortran::lower::omp {
-using Object = tomp::ObjectT<SymIdent, SymReference>;
-using ObjectList = tomp::ObjectListT<SymIdent, SymReference>;
+using Object = tomp::ObjectT<IdTy, ExprTy>;
+using ObjectList = tomp::ObjectListT<IdTy, ExprTy>;
Object makeObject(const parser::OmpObject &object,
semantics::SemanticsContext &semaCtx);
@@ -94,13 +93,14 @@ inline ObjectList makeList(const parser::OmpObjectList &objects,
return makeList(objects.v, makeObjectFn(semaCtx));
}
-template <typename FuncTy, typename ElemTy,
- typename ResultTy = std::invoke_result_t<FuncTy, ElemTy>>
+template <typename FuncTy, //
+ typename ArgTy, //
+ typename ResultTy = std::invoke_result_t<FuncTy, ArgTy>>
std::optional<ResultTy> maybeApply(FuncTy &&func,
- const std::optional<ElemTy> &inp) {
- if (!inp)
+ const std::optional<ArgTy> &arg) {
+ if (!arg)
return std::nullopt;
- return std::move(func(*inp));
+ return std::move(func(*arg));
}
std::optional<Object>
@@ -108,91 +108,142 @@ getBaseObject(const Object &object,
Fortran::semantics::SemanticsContext &semaCtx);
namespace clause {
-using DefinedOperator = tomp::clause::DefinedOperatorT<SymIdent, SymReference>;
-using ProcedureDesignator =
- tomp::clause::ProcedureDesignatorT<SymIdent, SymReference>;
-using ReductionOperator =
- tomp::clause::ReductionOperatorT<SymIdent, SymReference>;
-
-#ifdef EMPTY_CLASS
-#undef EMPTY_CLASS
-#endif
-#define EMPTY_CLASS(cls) \
- using cls = tomp::clause::cls##T<SymIdent, SymReference>
-
-#ifdef WRAPPER_CLASS
-#undef WRAPPER_CLASS
-#endif
-#define WRAPPER_CLASS(cls, content) \
- [[maybe_unused]] extern int xyzzy_semicolon_absorber
-#define GEN_FLANG_CLAUSE_PARSER_CLASSES
-#include "llvm/Frontend/OpenMP/OMP.inc"
-#undef EMPTY_CLASS
-#undef WRAPPER_CLASS
+using DefinedOperator = tomp::type::DefinedOperatorT<IdTy, ExprTy>;
+using ProcedureDesignator = tomp::type::ProcedureDesignatorT<IdTy, ExprTy>;
+using ReductionOperator = tomp::type::ReductionIdentifierT<IdTy, ExprTy>;
// "Requires" clauses are handled early on, and the aggregated information
// is stored in the Symbol details of modules, programs, and subprograms.
// These clauses are still handled here to cover all alternatives in the
// main clause variant.
-using Aligned = tomp::clause::AlignedT<SymIdent, SymReference>;
-using Allocate = tomp::clause::AllocateT<SymIdent, SymReference>;
-using Allocator = tomp::clause::AllocatorT<SymIdent, SymReference>;
+using AcqRel = tomp::clause::AcqRelT<TypeTy, IdTy, ExprTy>;
+using Acquire = tomp::clause::AcquireT<TypeTy, IdTy, ExprTy>;
+using AdjustArgs = tomp::clause::AdjustArgsT<TypeTy, IdTy, ExprTy>;
+using Affinity = tomp::clause::AffinityT<TypeTy, IdTy, ExprTy>;
+using Aligned = tomp::clause::AlignedT<TypeTy, IdTy, ExprTy>;
+using Align = tomp::clause::AlignT<TypeTy, IdTy, ExprTy>;
+using Allocate = tomp::clause::AllocateT<TypeTy, IdTy, ExprTy>;
+using Allocator = tomp::clause::AllocatorT<TypeTy, IdTy, ExprTy>;
+using AppendArgs = tomp::clause::AppendArgsT<TypeTy, IdTy, ExprTy>;
using AtomicDefaultMemOrder =
- tomp::clause::AtomicDefaultMemOrderT<SymIdent, SymReference>;
-using Collapse = tomp::clause::CollapseT<SymIdent, SymReference>;
-using Copyin = tomp::clause::CopyinT<SymIdent, SymReference>;
-using Copyprivate = tomp::clause::CopyprivateT<SymIdent, SymReference>;
-using Defaultmap = tomp::clause::DefaultmapT<SymIdent, SymReference>;
-using Default = tomp::clause::DefaultT<SymIdent, SymReference>;
-using Depend = tomp::clause::DependT<SymIdent, SymReference>;
-using Device = tomp::clause::DeviceT<SymIdent, SymReference>;
-using DeviceType = tomp::clause::DeviceTypeT<SymIdent, SymReference>;
-using DistSchedule = tomp::clause::DistScheduleT<SymIdent, SymReference>;
-using Enter = tomp::clause::EnterT<SymIdent, SymReference>;
-using Filter = tomp::clause::FilterT<SymIdent, SymReference>;
-using Final = tomp::clause::FinalT<SymIdent, SymReference>;
-using Firstprivate = tomp::clause::FirstprivateT<SymIdent, SymReference>;
-using From = tomp::clause::FromT<SymIdent, SymReference>;
-using Grainsize = tomp::clause::GrainsizeT<SymIdent, SymReference>;
-using HasDeviceAddr = tomp::clause::HasDeviceAddrT<SymIdent, SymReference>;
-using Hint = tomp::clause::HintT<SymIdent, SymReference>;
-using If = tomp::clause::IfT<SymIdent, SymReference>;
-using InReduction = tomp::clause::InReductionT<SymIdent, SymReference>;
-using IsDevicePtr = tomp::clause::IsDevicePtrT<SymIdent, SymReference>;
-using Lastprivate = tomp::clause::LastprivateT<SymIdent, SymReference>;
-using Linear = tomp::clause::LinearT<SymIdent, SymReference>;
-using Link = tomp::clause::LinkT<SymIdent, SymReference>;
-using Map = tomp::clause::MapT<SymIdent, SymReference>;
-using Nocontext = tomp::clause::NocontextT<SymIdent, SymReference>;
-using Nontemporal = tomp::clause::NontemporalT<SymIdent, SymReference>;
-using Novariants = tomp::clause::NovariantsT<SymIdent, SymReference>;
-using NumTasks = tomp::clause::NumTasksT<SymIdent, SymReference>;
-using NumTeams = tomp::clause::NumTeamsT<SymIdent, SymReference>;
-using NumThreads = tomp::clause::NumThreadsT<SymIdent, SymReference>;
-using OmpxDynCgroupMem =
- tomp::clause::OmpxDynCgroupMemT<SymIdent, SymReference>;
-using Ordered = tomp::clause::OrderedT<SymIdent, SymReference>;
-using Order = tomp::clause::OrderT<SymIdent, SymReference>;
-using Partial = tomp::clause::PartialT<SymIdent, SymReference>;
-using Priority = tomp::clause::PriorityT<SymIdent, SymReference>;
-using Private = tomp::clause::PrivateT<SymIdent, SymReference>;
-using ProcBind = tomp::clause::ProcBindT<SymIdent, SymReference>;
-using Reduction = tomp::clause::ReductionT<SymIdent, SymReference>;
-using Safelen = tomp::clause::SafelenT<SymIdent, SymReference>;
-using Schedule = tomp::clause::ScheduleT<SymIdent, SymReference>;
-using Shared = tomp::clause::SharedT<SymIdent, SymReference>;
-using Simdlen = tomp::clause::SimdlenT<SymIdent, SymReference>;
-using Sizes = tomp::clause::SizesT<SymIdent, SymReference>;
-using TaskReduction = tomp::clause::TaskReductionT<SymIdent, SymReference>;
-using ThreadLimit = tomp::clause::ThreadLimitT<SymIdent, SymReference>;
-using To = tomp::clause::ToT<SymIdent, SymReference>;
-using Uniform = tomp::clause::UniformT<SymIdent, SymReference>;
-using UseDeviceAddr = tomp::clause::UseDeviceAddrT<SymIdent, SymReference>;
-using UseDevicePtr = tomp::clause::UseDevicePtrT<SymIdent, SymReference>;
+ tomp::clause::AtomicDefaultMemOrderT<TypeTy, IdTy, ExprTy>;
+using At = tomp::clause::AtT<TypeTy, IdTy, ExprTy>;
+using Bind = tomp::clause::BindT<TypeTy, IdTy, ExprTy>;
+using Capture = tomp::clause::CaptureT<TypeTy, IdTy, ExprTy>;
+using Collapse = tomp::clause::CollapseT<TypeTy, IdTy, ExprTy>;
+using Compare = tomp::clause::CompareT<TypeTy, IdTy, ExprTy>;
+using Copyin = tomp::clause::CopyinT<TypeTy, IdTy, ExprTy>;
+using Copyprivate = tomp::clause::CopyprivateT<TypeTy, IdTy, ExprTy>;
+using Defaultmap = tomp::clause::DefaultmapT<TypeTy, IdTy, ExprTy>;
+using Default = tomp::clause::DefaultT<TypeTy, IdTy, ExprTy>;
+using Depend = tomp::clause::DependT<TypeTy, IdTy, ExprTy>;
+using Destroy = tomp::clause::DestroyT<TypeTy, IdTy, ExprTy>;
+using Detach = tomp::clause::DetachT<TypeTy, IdTy, ExprTy>;
+using Device = tomp::clause::DeviceT<TypeTy, IdTy, ExprTy>;
+using DeviceType = tomp::clause::DeviceTypeT<TypeTy, IdTy, ExprTy>;
+using DistSchedule = tomp::clause::DistScheduleT<TypeTy, IdTy, ExprTy>;
+using Doacross = tomp::clause::DoacrossT<TypeTy, IdTy, ExprTy>;
+using DynamicAllocators =
+ tomp::clause::DynamicAllocatorsT<TypeTy, IdTy, ExprTy>;
+using Enter = tomp::clause::EnterT<TypeTy, IdTy, ExprTy>;
+using Exclusive = tomp::clause::ExclusiveT<TypeTy, IdTy, ExprTy>;
+using Fail = tomp::clause::FailT<TypeTy, IdTy, ExprTy>;
+using Filter = tomp::clause::FilterT<TypeTy, IdTy, ExprTy>;
+using Final = tomp::clause::FinalT<TypeTy, IdTy, ExprTy>;
+using Firstprivate = tomp::clause::FirstprivateT<TypeTy, IdTy, ExprTy>;
+using From = tomp::clause::FromT<TypeTy, IdTy, ExprTy>;
+using Full = tomp::clause::FullT<TypeTy, IdTy, ExprTy>;
+using Grainsize = tomp::clause::GrainsizeT<TypeTy, IdTy, ExprTy>;
+using HasDeviceAddr = tomp::clause::HasDeviceAddrT<TypeTy, IdTy, ExprTy>;
+using Hint = tomp::clause::HintT<TypeTy, IdTy, ExprTy>;
+using If = tomp::clause::IfT<TypeTy, IdTy, ExprTy>;
+using Inbranch = tomp::clause::InbranchT<TypeTy, IdTy, ExprTy>;
+using Inclusive = tomp::clause::InclusiveT<TypeTy, IdTy, ExprTy>;
+using Indirect = tomp::clause::IndirectT<TypeTy, IdTy, ExprTy>;
+using Init = tomp::clause::InitT<TypeTy, IdTy, ExprTy>;
+using InReduction = tomp::clause::InReductionT<TypeTy, IdTy, ExprTy>;
+using IsDevicePtr = tomp::clause::IsDevicePtrT<TypeTy, IdTy, ExprTy>;
+using Lastprivate = tomp::clause::LastprivateT<TypeTy, IdTy, ExprTy>;
+using Linear = tomp::clause::LinearT<TypeTy, IdTy, ExprTy>;
+using Link = tomp::clause::LinkT<TypeTy, IdTy, ExprTy>;
+using Map = tomp::clause::MapT<TypeTy, IdTy, ExprTy>;
+using Match = tomp::clause::MatchT<TypeTy, IdTy, ExprTy>;
+using Mergeable = tomp::clause::MergeableT<TypeTy, IdTy, ExprTy>;
+using Message = tomp::clause::MessageT<TypeTy, IdTy, ExprTy>;
+using Nocontext = tomp::clause::NocontextT<TypeTy, IdTy, ExprTy>;
+using Nogroup = tomp::clause::NogroupT<TypeTy, IdTy, ExprTy>;
+using Nontemporal = tomp::clause::NontemporalT<TypeTy, IdTy, ExprTy>;
+using Notinbranch = tomp::clause::NotinbranchT<TypeTy, IdTy, ExprTy>;
+using Novariants = tomp::clause::NovariantsT<TypeTy, IdTy, ExprTy>;
+using Nowait = tomp::clause::NowaitT<TypeTy, IdTy, ExprTy>;
+using NumTasks = tomp::clause::NumTasksT<TypeTy, IdTy, ExprTy>;
+using NumTeams = tomp::clause::NumTeamsT<TypeTy, IdTy, ExprTy>;
+using NumThreads = tomp::clause::NumThreadsT<TypeTy, IdTy, ExprTy>;
+using OmpxAttribute = tomp::clause::OmpxAttributeT<TypeTy, IdTy, ExprTy>;
+using OmpxBare = tomp::clause::OmpxBareT<TypeTy, IdTy, ExprTy>;
+using OmpxDynCgroupMem = tomp::clause::OmpxDynCgroupMemT<TypeTy, IdTy, ExprTy>;
+using Ordered = tomp::clause::OrderedT<TypeTy, IdTy, ExprTy>;
+using Order = tomp::clause::OrderT<TypeTy, IdTy, ExprTy>;
+using Partial = tomp::clause::PartialT<TypeTy, IdTy, ExprTy>;
+using Priority = tomp::clause::PriorityT<TypeTy, IdTy, ExprTy>;
+using Private = tomp::clause::PrivateT<TypeTy, IdTy, ExprTy>;
+using ProcBind = tomp::clause::ProcBindT<TypeTy, IdTy, ExprTy>;
+using Read = tomp::clause::ReadT<TypeTy, IdTy, ExprTy>;
+using Reduction = tomp::clause::ReductionT<TypeTy, IdTy, ExprTy>;
+using Relaxed = tomp::clause::RelaxedT<TypeTy, IdTy, ExprTy>;
+using Release = tomp::clause::ReleaseT<TypeTy, IdTy, ExprTy>;
+using ReverseOffload = tomp::clause::ReverseOffloadT<TypeTy, IdTy, ExprTy>;
+using Safelen = tomp::clause::SafelenT<TypeTy, IdTy, ExprTy>;
+using Schedule = tomp::clause::ScheduleT<TypeTy, IdTy, ExprTy>;
+using SeqCst = tomp::clause::SeqCstT<TypeTy, IdTy, ExprTy>;
+using Severity = tomp::clause::SeverityT<TypeTy, IdTy, ExprTy>;
+using Shared = tomp::clause::SharedT<TypeTy, IdTy, ExprTy>;
+using Simdlen = tomp::clause::SimdlenT<TypeTy, IdTy, ExprTy>;
+using Simd = tomp::clause::SimdT<TypeTy, IdTy, ExprTy>;
+using Sizes = tomp::clause::SizesT<TypeTy, IdTy, ExprTy>;
+using TaskReduction = tomp::clause::TaskReductionT<TypeTy, IdTy, ExprTy>;
+using ThreadLimit = tomp::clause::ThreadLimitT<TypeTy, IdTy, ExprTy>;
+using Threads = tomp::clause::ThreadsT<TypeTy, IdTy, ExprTy>;
+using To = tomp::clause::ToT<TypeTy, IdTy, ExprTy>;
+using UnifiedAddress = tomp::clause::UnifiedAddressT<TypeTy, IdTy, ExprTy>;
+using UnifiedSharedMemory =
+ tomp::clause::UnifiedSharedMemoryT<TypeTy, IdTy, ExprTy>;
+using Uniform = tomp::clause::UniformT<TypeTy, IdTy, ExprTy>;
+using Unknown = tomp::clause::UnknownT<TypeTy, IdTy, ExprTy>;
+using Untied = tomp::clause::UntiedT<TypeTy, IdTy, ExprTy>;
+using Update = tomp::clause::UpdateT<TypeTy, IdTy, ExprTy>;
+using UseDeviceAddr = tomp::clause::UseDeviceAddrT<TypeTy, IdTy, ExprTy>;
+using UseDevicePtr = tomp::clause::UseDevicePtrT<TypeTy, IdTy, ExprTy>;
+using UsesAllocators = tomp::clause::UsesAllocatorsT<TypeTy, IdTy, ExprTy>;
+using Use = tomp::clause::UseT<TypeTy, IdTy, ExprTy>;
+using Weak = tomp::clause::WeakT<TypeTy, IdTy, ExprTy>;
+using When = tomp::clause::WhenT<TypeTy, IdTy, ExprTy>;
+using Write = tomp::clause::WriteT<TypeTy, IdTy, ExprTy>;
} // namespace clause
-struct Clause : public tomp::ClauseT<SymIdent, SymReference> {
+struct CancellationConstructType {
+ using EmptyTrait = std::true_type;
+};
+struct Depobj {
+ using EmptyTrait = std::true_type;
+};
+struct Flush {
+ using EmptyTrait = std::true_type;
+};
+struct MemoryOrder {
+ using EmptyTrait = std::true_type;
+};
+struct Threadprivate {
+ using EmptyTrait = std::true_type;
+};
+
+using ClauseBase = tomp::ClauseT<TypeTy, IdTy, ExprTy,
+ // Extras...
+ CancellationConstructType, Depobj, Flush,
+ MemoryOrder, Threadprivate>;
+
+struct Clause : public ClauseBase {
parser::CharBlock source;
};
diff --git a/flang/lib/Lower/OpenMP/DataSharingProcessor.cpp b/flang/lib/Lower/OpenMP/DataSharingProcessor.cpp
index e1aa7524e930d6..e114ab9f4548ab 100644
--- a/flang/lib/Lower/OpenMP/DataSharingProcessor.cpp
+++ b/flang/lib/Lower/OpenMP/DataSharingProcessor.cpp
@@ -99,7 +99,8 @@ void DataSharingProcessor::collectSymbolsForPrivatization() {
collectOmpObjectListSymbol(firstPrivateClause->v, privatizedSymbols);
} else if (const auto &lastPrivateClause =
std::get_if<omp::clause::Lastprivate>(&clause.u)) {
- collectOmpObjectListSymbol(lastPrivateClause->v, privatizedSymbols);
+ const ObjectList &objects = std::get<ObjectList>(lastPrivateClause->t);
+ collectOmpObjectListSymbol(objects, privatizedSymbols);
hasLastPrivateOp = true;
} else if (std::get_if<omp::clause::Collapse>(&clause.u)) {
hasCollapse = true;
@@ -286,12 +287,13 @@ void DataSharingProcessor::collectSymbols(
}
void DataSharingProcessor::collectDefaultSymbols() {
+ using DataSharingAttribute = omp::clause::Default::DataSharingAttribute;
for (const omp::Clause &clause : clauses) {
if (const auto *defaultClause =
std::get_if<omp::clause::Default>(&clause.u)) {
- if (defaultClause->v == omp::clause::Default::Type::Private)
+ if (defaultClause->v == DataSharingAttribute::Private)
collectSymbols(Fortran::semantics::Symbol::Flag::OmpPrivate);
- else if (defaultClause->v == omp::clause::Default::Type::Firstprivate)
+ else if (defaultClause->v == DataSharingAttribute::Firstprivate)
collectSymbols(Fortran::semantics::Symbol::Flag::OmpFirstPrivate);
}
}
diff --git a/flang/lib/Lower/OpenMP/OpenMP.cpp b/flang/lib/Lower/OpenMP/OpenMP.cpp
index d91694c4f639a5..6b1f0f71a6dd0f 100644
--- a/flang/lib/Lower/OpenMP/OpenMP.cpp
+++ b/flang/lib/Lower/OpenMP/OpenMP.cpp
@@ -13,6 +13,7 @@
#include "flang/Lower/OpenMP.h"
#include "ClauseProcessor.h"
+#include "Clauses.h"
#include "DataSharingProcessor.h"
#include "DirectivesCommon.h"
#include "ReductionProcessor.h"
@@ -555,7 +556,7 @@ genParallelOp(Fortran::lower::AbstractConverter &converter,
llvm::SmallVector<const Fortran::semantics::Symbol *> reductionSymbols;
ClauseProcessor cp(converter, semaCtx, clauseList);
- cp.processIf(clause::If::DirectiveNameModifier::Parallel, ifClauseOperand);
+ cp.processIf(llvm::omp::Directive::OMPD_parallel, ifClauseOperand);
cp.processNumThreads(stmtCtx, numThreadsClauseOperand);
cp.processProcBind(procBindKindAttr);
cp.processDefault();
@@ -726,7 +727,7 @@ genTaskOp(Fortran::lower::AbstractConverter &converter,
dependOperands;
ClauseProcessor cp(converter, semaCtx, clauseList);
- cp.processIf(clause::If::DirectiveNameModifier::Task, ifClauseOperand);
+ cp.processIf(llvm::omp::Directive::OMPD_task, ifClauseOperand);
cp.processAllocate(allocatorOperands, allocateOperands);
cp.processDefault();
cp.processFinal(stmtCtx, finalClauseOperand);
@@ -838,7 +839,7 @@ genTargetDataOp(Fortran::lower::AbstractConverter &converter,
llvm::SmallVector<const Fortran::semantics::Symbol *> useDeviceSymbols;
ClauseProcessor cp(converter, semaCtx, clauseList);
- cp.processIf(clause::If::DirectiveNameModifier::TargetData, ifClauseOperand);
+ cp.processIf(llvm::omp::Directive::OMPD_target_data, ifClauseOperand);
cp.processDevice(stmtCtx, deviceOperand);
cp.processUseDevicePtr(devicePtrOperands, useDeviceTypes, useDeviceLocs,
useDeviceSymbols);
@@ -883,24 +884,20 @@ static OpTy genTargetEnterExitDataUpdateOp(
llvm::SmallVector<mlir::Value> mapOperands, dependOperands;
llvm::SmallVector<mlir::Attribute> dependTypeOperands;
- clause::If::DirectiveNameModifier directiveName;
// GCC 9.3.0 emits a (probably) bogus warning about an unused variable.
[[maybe_unused]] llvm::omp::Directive directive;
if constexpr (std::is_same_v<OpTy, mlir::omp::TargetEnterDataOp>) {
- directiveName = clause::If::DirectiveNameModifier::TargetEnterData;
directive = llvm::omp::Directive::OMPD_target_enter_data;
} else if constexpr (std::is_same_v<OpTy, mlir::omp::TargetExitDataOp>) {
- directiveName = clause::If::DirectiveNameModifier::TargetExitData;
directive = llvm::omp::Directive::OMPD_target_exit_data;
} else if constexpr (std::is_same_v<OpTy, mlir::omp::TargetUpdateOp>) {
- directiveName = clause::If::DirectiveNameModifier::TargetUpdate;
directive = llvm::omp::Directive::OMPD_target_update;
} else {
return nullptr;
}
ClauseProcessor cp(converter, semaCtx, clauseList);
- cp.processIf(directiveName, ifClauseOperand);
+ cp.processIf(directive, ifClauseOperand);
cp.processDevice(stmtCtx, deviceOperand);
cp.processDepend(dependTypeOperands, dependOperands);
cp.processNowait(nowaitAttr);
@@ -1092,7 +1089,7 @@ genTargetOp(Fortran::lower::AbstractConverter &converter,
llvm::SmallVector<const Fortran::semantics::Symbol *> mapSymbols;
ClauseProcessor cp(converter, semaCtx, clauseList);
- cp.processIf(clause::If::DirectiveNameModifier::Target, ifClauseOperand);
+ cp.processIf(llvm::omp::Directive::OMPD_target, ifClauseOperand);
cp.processDevice(stmtCtx, deviceOperand);
cp.processThreadLimit(stmtCtx, threadLimitOperand);
cp.processDepend(dependTypeOperands, dependOperands);
@@ -1218,7 +1215,7 @@ genTeamsOp(Fortran::lower::AbstractConverter &converter,
llvm::SmallVector<mlir::Attribute> reductionDeclSymbols;
ClauseProcessor cp(converter, semaCtx, clauseList);
- cp.processIf(clause::If::DirectiveNameModifier::Teams, ifClauseOperand);
+ cp.processIf(llvm::omp::Directive::OMPD_teams, ifClauseOperand);
cp.processAllocate(allocatorOperands, allocateOperands);
cp.processDefault();
cp.processNumTeams(stmtCtx, numTeamsClauseOperand);
@@ -1538,7 +1535,7 @@ createSimdLoop(Fortran::lower::AbstractConverter &converter,
cp.processCollapse(loc, eval, lowerBound, upperBound, step, iv);
cp.processScheduleChunk(stmtCtx, scheduleChunkClauseOperand);
cp.processReduction(loc, reductionVars, reductionTypes, reductionDeclSymbols);
- cp.processIf(clause::If::DirectiveNameModifier::Simd, ifClauseOperand);
+ cp.processIf(llvm::omp::Directive::OMPD_simd, ifClauseOperand);
cp.processSimdlen(simdlenClauseOperand);
cp.processSafelen(safelenClauseOperand);
cp.processTODO<clause::Aligned, clause::Allocate, clause::Linear,
diff --git a/flang/lib/Lower/OpenMP/Utils.cpp b/flang/lib/Lower/OpenMP/Utils.cpp
index b9c0660aa4da8e..2e26c84749cf46 100644
--- a/flang/lib/Lower/OpenMP/Utils.cpp
+++ b/flang/lib/Lower/OpenMP/Utils.cpp
@@ -16,6 +16,7 @@
#include <flang/Lower/AbstractConverter.h>
#include <flang/Lower/ConvertType.h>
#include <flang/Optimizer/Builder/FIRBuilder.h>
+#include <flang/Lower/PFTBuilder.h>
#include <flang/Parser/parse-tree.h>
#include <flang/Parser/tools.h>
#include <flang/Semantics/tools.h>
@@ -36,6 +37,11 @@ namespace Fortran {
namespace lower {
namespace omp {
+uint32_t getOpenMPVersion(mlir::ModuleOp mod) {
+ mlir::Attribute verAttr = mod->getAttr("omp.version");
+ return llvm::cast<mlir::omp::VersionAttr>(verAttr).getVersion();
+}
+
void genObjectList(const ObjectList &objects,
Fortran::lower::AbstractConverter &converter,
llvm::SmallVectorImpl<mlir::Value> &operands) {
@@ -120,6 +126,27 @@ getOmpObjectSymbol(const Fortran::parser::OmpObject &ompObject) {
return sym;
}
+Fortran::semantics::Symbol *
+getIterationVariableSymbol(const Fortran::lower::pft::Evaluation &eval) {
+ return eval.visit(Fortran::common::visitors{
+ [&](const Fortran::parser::DoConstruct &doLoop) {
+ if (const auto &maybeCtrl = doLoop.GetLoopControl()) {
+ using LoopControl = Fortran::parser::LoopControl;
+ if (auto *bounds = std::get_if<LoopControl::Bounds>(&maybeCtrl->u)) {
+ static_assert(
+ std::is_same_v<decltype(bounds->name),
+ Fortran::parser::Scalar<Fortran::parser::Name>>);
+ return bounds->name.thing.symbol;
+ }
+ }
+ return static_cast<Fortran::semantics::Symbol *>(nullptr);
+ },
+ [](auto &&) {
+ return static_cast<Fortran::semantics::Symbol *>(nullptr);
+ },
+ });
+}
+
} // namespace omp
} // namespace lower
} // namespace Fortran
diff --git a/flang/lib/Lower/OpenMP/Utils.h b/flang/lib/Lower/OpenMP/Utils.h
index 4074bf73987d5b..0027288b0f92f7 100644
--- a/flang/lib/Lower/OpenMP/Utils.h
+++ b/flang/lib/Lower/OpenMP/Utils.h
@@ -34,11 +34,16 @@ struct OmpObjectList;
} // namespace parser
namespace lower {
-
class AbstractConverter;
+namespace pft {
+struct Evaluation;
+} // namespace pft
+
namespace omp {
+uint32_t getOpenMPVersion(mlir::ModuleOp mod);
+
using DeclareTargetCapturePair =
std::pair<mlir::omp::DeclareTargetCaptureClause,
const Fortran::semantics::Symbol &>;
@@ -69,6 +74,9 @@ void genObjectList2(const Fortran::parser::OmpObjectList &objectList,
Fortran::lower::AbstractConverter &converter,
llvm::SmallVectorImpl<mlir::Value> &operands);
+Fortran::semantics::Symbol *
+getIterationVariableSymbol(const Fortran::lower::pft::Evaluation &eval);
+
} // namespace omp
} // namespace lower
} // namespace Fortran
diff --git a/llvm/include/llvm/Frontend/OpenMP/ClauseT.h b/llvm/include/llvm/Frontend/OpenMP/ClauseT.h
new file mode 100644
index 00000000000000..88544d65293110
--- /dev/null
+++ b/llvm/include/llvm/Frontend/OpenMP/ClauseT.h
@@ -0,0 +1,1113 @@
+//===- ClauseT.h -- clause template definitions ---------------------------===//
+//
+// 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
+//
+//===----------------------------------------------------------------------===//
+#ifndef FORTRAN_LOWER_OPENMP_CLAUSET_H
+#define FORTRAN_LOWER_OPENMP_CLAUSET_H
+
+#include "llvm/ADT/ArrayRef.h"
+#include "llvm/ADT/DenseMap.h"
+#include "llvm/ADT/DenseSet.h"
+#include "llvm/ADT/STLExtras.h"
+#include "llvm/ADT/SmallVector.h"
+#include "llvm/Frontend/OpenMP/OMP.h"
+#include "llvm/Support/ErrorHandling.h"
+#include "llvm/Support/raw_ostream.h"
+
+#include <algorithm>
+#include <iterator>
+#include <optional>
+#include <tuple>
+#include <type_traits>
+#include <utility>
+#include <variant>
+
+#define ENUM(Name, ...) enum class Name { __VA_ARGS__ }
+#define OPT(x) std::optional<x>
+
+// A number of OpenMP clauses contain values that come from a given set of
+// possibilities. In the IR these are usually represented by enums. Both
+// clang and flang use different types for the enums, and the enum elements
+// representing the same thing may have different values between clang and
+// flang.
+// Since the representation below tries to adhere to the spec, and be source
+// language agnostic, it defines its own enums, independent from any language
+// frontend. As a consequence, when instantiating the templates below,
+// frontend-specific enums need to be translated into the representation
+// used here. The macros below are intended to assist with the conversion.
+
+// Helper macro for enum-class conversion.
+#define CLAUSET_SCOPED_ENUM_MEMBER_CONVERT(Ov, Tv) \
+ if (v == OtherEnum::Ov) { \
+ return ThisEnum::Tv; \
+ }
+
+// Helper macro for enum (non-class) conversion.
+#define CLAUSET_UNSCOPED_ENUM_MEMBER_CONVERT(Ov, Tv) \
+ if (v == Ov) { \
+ return ThisEnum::Tv; \
+ }
+
+#define CLAUSET_ENUM_CONVERT(func, OtherE, ThisE, Maps) \
+ auto func = [](OtherE v) -> ThisE { \
+ using ThisEnum = ThisE; \
+ using OtherEnum = OtherE; \
+ (void)sizeof(OtherEnum); /*Avoid "unused local typedef" warning*/ \
+ Maps; \
+ llvm_unreachable("Unexpected value in " #OtherE); \
+ }
+
+// Usage:
+//
+// Given two enums,
+// enum class Other { o1, o2 };
+// enum class This { t1, t2 };
+// generate conversion function "Func : Other -> This" with
+// CLAUSET_ENUM_CONVERT(
+// Func, Other, This,
+// CLAUSET_ENUM_MEMBER_CONVERM(o1, t1) // <- No comma
+// CLAUSET_ENUM_MEMBER_CONVERM(o2, t2)
+// ...
+// )
+//
+// Note that the sequence of M(other-value, this-value) is separated
+// with _spaces_, not commas.
+
+namespace detail {
+// Type trait to determine whether T is a specialization of std::variant.
+template <typename T>
+struct is_variant {
+ static constexpr bool value = false;
+};
+
+template <typename... Ts>
+struct is_variant<std::variant<Ts...>> {
+ static constexpr bool value = true;
+};
+
+template <typename T>
+constexpr bool is_variant_v = is_variant<T>::value;
+
+// Helper utility to create a type which is a union of two given variants.
+template <typename...>
+struct UnionOfTwo;
+
+template <typename... Types1, typename... Types2>
+struct UnionOfTwo<std::variant<Types1...>, std::variant<Types2...>> {
+ using type = std::variant<Types1..., Types2...>;
+};
+} // namespace detail
+
+namespace tomp {
+namespace type {
+
+// Helper utility to create a type which is a union of an arbitrary number
+// of variants.
+template <typename...>
+struct Union;
+
+template <>
+struct Union<> {
+ // Legal to define, illegal to instantiate.
+ using type = std::variant<>;
+};
+
+template <typename T, typename... Ts>
+struct Union<T, Ts...> {
+ static_assert(detail::is_variant_v<T>);
+ using type =
+ typename detail::UnionOfTwo<T, typename Union<Ts...>::type>::type;
+};
+
+template <typename T>
+using ListT = llvm::SmallVector<T, 0>;
+
+// The ObjectT class represents a variable (as defined in the OpenMP spec).
+//
+// A specialization of ObjectT<Id, Expr> must provide the following definitions:
+// {
+// using IdTy = Id;
+// using ExprTy = Expr;
+//
+// auto id() const -> IdTy {
+// return the identifier of the object (for use in tests for
+// presence/absence of the object)
+// }
+//
+// auto ref() const -> (e.g. const ExprTy&) {
+// return the expression accessing (referencing) the object
+// }
+// }
+//
+// For example, the ObjectT instance created for "var[x+1]" would have
+// the `id()` return the identifier for `var`, and the `ref()` return the
+// representation of the array-access `var[x+1]`.
+//
+// The identity of an object must always be present, i.e. it cannot be
+// nullptr, std::nullopt, etc. The reference is optional.
+//
+// Note: the ObjectT template is not defined. Any user of it is expected to
+// provide their own specialization that conforms to the above requirements.
+template <typename IdType, typename ExprType>
+struct ObjectT;
+
+template <typename I, typename E>
+using ObjectListT = ListT<ObjectT<I, E>>;
+
+using DirectiveName = llvm::omp::Directive;
+
+template <typename I, typename E>
+struct DefinedOperatorT {
+ struct DefinedOpName {
+ using WrapperTrait = std::true_type;
+ ObjectT<I, E> v;
+ };
+ ENUM(IntrinsicOperator, Power, Multiply, Divide, Add, Subtract, Concat, LT,
+ LE, EQ, NE, GE, GT, NOT, AND, OR, EQV, NEQV);
+ using UnionTrait = std::true_type;
+ std::variant<DefinedOpName, IntrinsicOperator> u;
+};
+
+template <typename E>
+struct RangeT {
+ // range-specification: begin : end[: step]
+ using TupleTrait = std::true_type;
+ std::tuple<E, E, OPT(E)> t;
+};
+
+template <typename TypeType, typename IdType, typename ExprType>
+struct IteratorSpecifierT {
+ // iterators-specifier: [ iterator-type ] identifier = range-specification
+ using TupleTrait = std::true_type;
+ std::tuple<OPT(TypeType), ObjectT<IdType, ExprType>, RangeT<ExprType>> t;
+};
+
+template <typename I, typename E>
+struct MapperT {
+ using MapperIdentifier = ObjectT<I, E>;
+ using WrapperTrait = std::true_type;
+ MapperIdentifier v;
+};
+
+ENUM(MemoryOrder, AcqRel, Acquire, Relaxed, Release, SeqCst);
+ENUM(MotionExpectation, Present);
+ENUM(TaskDependenceType, In, Out, Inout, Mutexinoutset, Inoutset, Depobj);
+
+template <typename I, typename E>
+struct LoopIterationT {
+ struct Distance {
+ using TupleTrait = std::true_type;
+ std::tuple<DefinedOperatorT<I, E>, E> t;
+ };
+ using TupleTrait = std::true_type;
+ std::tuple<ObjectT<I, E>, OPT(Distance)> t;
+};
+
+template <typename I, typename E>
+struct ProcedureDesignatorT {
+ using WrapperTrait = std::true_type;
+ ObjectT<I, E> v;
+};
+
+template <typename I, typename E>
+struct ReductionIdentifierT {
+ using UnionTrait = std::true_type;
+ std::variant<DefinedOperatorT<I, E>, ProcedureDesignatorT<I, E>> u;
+};
+
+template <typename T, typename I, typename E>
+using IteratorT = ListT<IteratorSpecifierT<T, I, E>>;
+} // namespace type
+
+template <typename T>
+using ListT = type::ListT<T>;
+
+template <typename I, typename E>
+using ObjectT = type::ObjectT<I, E>;
+
+template <typename I, typename E>
+using ObjectListT = type::ObjectListT<I, E>;
+
+template <typename T, typename I, typename E>
+using IteratorT = type::IteratorT<T, I, E>;
+
+template <
+ typename ContainerTy, typename FunctionTy,
+ typename ElemTy = typename llvm::remove_cvref_t<ContainerTy>::value_type,
+ typename ResultTy = std::invoke_result_t<FunctionTy, ElemTy>>
+ListT<ResultTy> makeList(ContainerTy &&container, FunctionTy &&func) {
+ ListT<ResultTy> v;
+ llvm::transform(container, std::back_inserter(v), func);
+ return v;
+}
+
+namespace clause {
+template <typename T, typename I, typename E>
+struct AbsentT {
+ using List = ListT<type::DirectiveName>;
+ using WrapperTrait = std::true_type;
+ List v;
+};
+
+template <typename T, typename I, typename E>
+struct AcqRelT {
+ using EmptyTrait = std::true_type;
+};
+
+template <typename T, typename I, typename E>
+struct AcquireT {
+ using EmptyTrait = std::true_type;
+};
+
+template <typename T, typename I, typename E>
+struct AdjustArgsT {
+ using IncompleteTrait = std::true_type;
+};
+
+template <typename T, typename I, typename E>
+struct AffinityT {
+ using Iterator = type::IteratorT<T, I, E>;
+ using LocatorList = ObjectListT<I, E>;
+
+ using TupleTrait = std::true_type;
+ std::tuple<OPT(Iterator), LocatorList> t;
+};
+
+template <typename T, typename I, typename E>
+struct AlignT {
+ using Alignment = E;
+
+ using WrapperTrait = std::true_type;
+ Alignment v;
+};
+
+template <typename T, typename I, typename E>
+struct AlignedT {
+ using Alignment = E;
+ using List = ObjectListT<I, E>;
+
+ using TupleTrait = std::true_type;
+ std::tuple<OPT(Alignment), List> t;
+};
+
+template <typename T, typename I, typename E>
+struct AllocatorT;
+
+template <typename T, typename I, typename E>
+struct AllocateT {
+ using AllocatorSimpleModifier = E;
+ using AllocatorComplexModifier = AllocatorT<T, I, E>;
+ using AlignModifier = AlignT<T, I, E>;
+ using List = ObjectListT<I, E>;
+
+ using TupleTrait = std::true_type;
+ std::tuple<OPT(AllocatorSimpleModifier), OPT(AllocatorComplexModifier),
+ OPT(AlignModifier), List>
+ t;
+};
+
+template <typename T, typename I, typename E>
+struct AllocatorT {
+ using Allocator = E;
+ using WrapperTrait = std::true_type;
+ Allocator v;
+};
+
+template <typename T, typename I, typename E>
+struct AppendArgsT {
+ using IncompleteTrait = std::true_type;
+};
+
+template <typename T, typename I, typename E>
+struct AtT {
+ ENUM(ActionTime, Compilation, Execution);
+ using WrapperTrait = std::true_type;
+ ActionTime v;
+};
+
+template <typename T, typename I, typename E>
+struct AtomicDefaultMemOrderT {
+ using MemoryOrder = type::MemoryOrder;
+ using WrapperTrait = std::true_type;
+ MemoryOrder v; // Name not provided in spec
+};
+
+template <typename T, typename I, typename E>
+struct BindT {
+ ENUM(Binding, Teams, Parallel, Thread);
+ using WrapperTrait = std::true_type;
+ Binding v;
+};
+
+template <typename T, typename I, typename E>
+struct CaptureT {
+ using EmptyTrait = std::true_type;
+};
+
+template <typename T, typename I, typename E>
+struct CollapseT {
+ using N = E;
+ using WrapperTrait = std::true_type;
+ N v;
+};
+
+template <typename T, typename I, typename E>
+struct CompareT {
+ using EmptyTrait = std::true_type;
+};
+
+template <typename T, typename I, typename E>
+struct ContainsT {
+ using List = ListT<type::DirectiveName>;
+ using WrapperTrait = std::true_type;
+ List v;
+};
+
+template <typename T, typename I, typename E>
+struct CopyinT {
+ using List = ObjectListT<I, E>;
+ using WrapperTrait = std::true_type;
+ List v;
+};
+
+template <typename T, typename I, typename E>
+struct CopyprivateT {
+ using List = ObjectListT<I, E>;
+ using WrapperTrait = std::true_type;
+ List v;
+};
+
+template <typename T, typename I, typename E>
+struct DefaultT {
+ ENUM(DataSharingAttribute, Firstprivate, None, Private, Shared);
+ using WrapperTrait = std::true_type;
+ DataSharingAttribute v;
+};
+
+template <typename T, typename I, typename E>
+struct DefaultmapT {
+ ENUM(ImplicitBehavior, Alloc, To, From, Tofrom, Firstprivate, None, Default,
+ Present);
+ ENUM(VariableCategory, Scalar, Aggregate, Pointer, Allocatable);
+ using TupleTrait = std::true_type;
+ std::tuple<ImplicitBehavior, OPT(VariableCategory)> t;
+};
+
+template <typename T, typename I, typename E>
+struct DoacrossT;
+
+template <typename T, typename I, typename E>
+struct DependT {
+ using Iterator = type::IteratorT<T, I, E>;
+ using LocatorList = ObjectListT<I, E>;
+ using TaskDependenceType = tomp::type::TaskDependenceType;
+
+ struct WithLocators { // Modern form
+ using TupleTrait = std::true_type;
+ // Empty LocatorList means "omp_all_memory".
+ std::tuple<TaskDependenceType, OPT(Iterator), LocatorList> t;
+ };
+
+ using Doacross = DoacrossT<T, I, E>;
+ using UnionTrait = std::true_type;
+ std::variant<Doacross, WithLocators> u; // Doacross form is legacy
+};
+
+template <typename T, typename I, typename E>
+struct DestroyT {
+ using DestroyVar = ObjectT<I, E>;
+ using WrapperTrait = std::true_type;
+ // DestroyVar can be ommitted in "depobj destroy".
+ OPT(DestroyVar) v;
+};
+
+template <typename T, typename I, typename E>
+struct DetachT {
+ using EventHandle = ObjectT<I, E>;
+ using WrapperTrait = std::true_type;
+ EventHandle v;
+};
+
+template <typename T, typename I, typename E>
+struct DeviceT {
+ using DeviceDescription = E;
+ ENUM(DeviceModifier, Ancestor, DeviceNum);
+ using TupleTrait = std::true_type;
+ std::tuple<OPT(DeviceModifier), DeviceDescription> t;
+};
+
+template <typename T, typename I, typename E>
+struct DeviceTypeT {
+ ENUM(DeviceTypeDescription, Any, Host, Nohost);
+ using WrapperTrait = std::true_type;
+ DeviceTypeDescription v;
+};
+
+template <typename T, typename I, typename E>
+struct DistScheduleT {
+ ENUM(Kind, Static);
+ using ChunkSize = E;
+ using TupleTrait = std::true_type;
+ std::tuple<Kind, OPT(ChunkSize)> t;
+};
+
+template <typename T, typename I, typename E>
+struct DoacrossT {
+ using Vector = ListT<type::LoopIterationT<I, E>>;
+ ENUM(DependenceType, Source, Sink);
+ using TupleTrait = std::true_type;
+ // Empty Vector means "omp_cur_iteration"
+ std::tuple<DependenceType, Vector> t;
+};
+
+template <typename T, typename I, typename E>
+struct DynamicAllocatorsT {
+ using EmptyTrait = std::true_type;
+};
+
+template <typename T, typename I, typename E>
+struct EnterT {
+ using List = ObjectListT<I, E>;
+ using WrapperTrait = std::true_type;
+ List v;
+};
+
+template <typename T, typename I, typename E>
+struct ExclusiveT {
+ using WrapperTrait = std::true_type;
+ using List = ObjectListT<I, E>;
+ List v;
+};
+
+template <typename T, typename I, typename E>
+struct FailT {
+ using MemoryOrder = type::MemoryOrder;
+ using WrapperTrait = std::true_type;
+ MemoryOrder v;
+};
+
+template <typename T, typename I, typename E>
+struct FilterT {
+ using ThreadNum = E;
+ using WrapperTrait = std::true_type;
+ ThreadNum v;
+};
+
+template <typename T, typename I, typename E>
+struct FinalT {
+ using Finalize = E;
+ using WrapperTrait = std::true_type;
+ Finalize v;
+};
+
+template <typename T, typename I, typename E>
+struct FirstprivateT {
+ using List = ObjectListT<I, E>;
+ using WrapperTrait = std::true_type;
+ List v;
+};
+
+template <typename T, typename I, typename E>
+struct FromT {
+ using LocatorList = ObjectListT<I, E>;
+ using Expectation = type::MotionExpectation;
+ using Mapper = type::MapperT<I, E>;
+ using Iterator = type::IteratorT<T, I, E>;
+
+ using TupleTrait = std::true_type;
+ std::tuple<OPT(Expectation), OPT(Mapper), OPT(Iterator), LocatorList> t;
+};
+
+template <typename T, typename I, typename E>
+struct FullT {
+ using EmptyTrait = std::true_type;
+};
+
+template <typename T, typename I, typename E>
+struct GrainsizeT {
+ ENUM(Prescriptiveness, Strict);
+ using GrainSize = E;
+ using TupleTrait = std::true_type;
+ std::tuple<OPT(Prescriptiveness), GrainSize> t;
+};
+
+template <typename T, typename I, typename E>
+struct HasDeviceAddrT {
+ using List = ObjectListT<I, E>;
+ using WrapperTrait = std::true_type;
+ List v;
+};
+
+template <typename T, typename I, typename E>
+struct HintT {
+ using HintExpr = E;
+ using WrapperTrait = std::true_type;
+ HintExpr v;
+};
+
+template <typename T, typename I, typename E>
+struct HoldsT {
+ using WrapperTrait = std::true_type;
+ E v; // No argument name in spec 5.2
+};
+
+template <typename T, typename I, typename E>
+struct IfT {
+ using DirectiveNameModifier = type::DirectiveName;
+ using IfExpression = E;
+ using TupleTrait = std::true_type;
+ std::tuple<OPT(DirectiveNameModifier), IfExpression> t;
+};
+
+template <typename T, typename I, typename E>
+struct InbranchT {
+ using EmptyTrait = std::true_type;
+};
+
+template <typename T, typename I, typename E>
+struct InclusiveT {
+ using List = ObjectListT<I, E>;
+ using WrapperTrait = std::true_type;
+ List v;
+};
+
+template <typename T, typename I, typename E>
+struct IndirectT {
+ using InvokedByFptr = E;
+ using WrapperTrait = std::true_type;
+ InvokedByFptr v;
+};
+
+template <typename T, typename I, typename E>
+struct InitT {
+ using ForeignRuntimeId = E;
+ using InteropVar = ObjectT<I, E>;
+ using InteropPreference = ListT<ForeignRuntimeId>;
+ ENUM(InteropType, Target, Targetsync); // Repeatable
+ using InteropTypes = ListT<InteropType>; // Not a spec name
+
+ using TupleTrait = std::true_type;
+ std::tuple<OPT(InteropPreference), InteropTypes, InteropVar> t;
+};
+
+template <typename T, typename I, typename E>
+struct InitializerT {
+ using InitializerExpr = E;
+ using WrapperTrait = std::true_type;
+ InitializerExpr v;
+};
+
+template <typename T, typename I, typename E>
+struct InReductionT {
+ using List = ObjectListT<I, E>;
+ using ReductionIdentifier = type::ReductionIdentifierT<I, E>;
+ using TupleTrait = std::true_type;
+ std::tuple<ReductionIdentifier, List> t;
+};
+
+template <typename T, typename I, typename E>
+struct IsDevicePtrT {
+ using List = ObjectListT<I, E>;
+ using WrapperTrait = std::true_type;
+ List v;
+};
+
+template <typename T, typename I, typename E>
+struct LastprivateT {
+ using List = ObjectListT<I, E>;
+ ENUM(LastprivateModifier, Conditional);
+ using TupleTrait = std::true_type;
+ std::tuple<OPT(LastprivateModifier), List> t;
+};
+
+template <typename T, typename I, typename E>
+struct LinearT {
+ // std::get<type> won't work here due to duplicate types in the tuple.
+ using List = ObjectListT<I, E>;
+ using StepSimpleModifier = E;
+ using StepComplexModifier = E;
+ ENUM(LinearModifier, Ref, Val, Uval);
+
+ using TupleTrait = std::true_type;
+ // Step == nullptr means 1.
+ std::tuple<OPT(StepSimpleModifier), OPT(StepComplexModifier),
+ OPT(LinearModifier), List>
+ t;
+};
+
+template <typename T, typename I, typename E>
+struct LinkT {
+ using List = ObjectListT<I, E>;
+ using WrapperTrait = std::true_type;
+ List v;
+};
+
+template <typename T, typename I, typename E>
+struct MapT {
+ using LocatorList = ObjectListT<I, E>;
+ ENUM(MapType, To, From, Tofrom, Alloc, Release, Delete);
+ ENUM(MapTypeModifier, Always, Close, Present);
+ using Mapper = type::MapperT<I, E>;
+ using Iterator = type::IteratorT<T, I, E>;
+ using MapTypeModifiers = ListT<MapTypeModifier>; // Not a spec name
+
+ using TupleTrait = std::true_type;
+ std::tuple<OPT(MapType), OPT(MapTypeModifiers), OPT(Mapper), OPT(Iterator),
+ LocatorList>
+ t;
+};
+
+template <typename T, typename I, typename E>
+struct MatchT {
+ using IncompleteTrait = std::true_type;
+};
+
+template <typename T, typename I, typename E>
+struct MergeableT {
+ using EmptyTrait = std::true_type;
+};
+
+template <typename T, typename I, typename E>
+struct MessageT {
+ using MsgString = E;
+ using WrapperTrait = std::true_type;
+ MsgString v;
+};
+
+template <typename T, typename I, typename E>
+struct NocontextT {
+ using DoNotUpdateContext = E;
+ using WrapperTrait = std::true_type;
+ DoNotUpdateContext v;
+};
+
+template <typename T, typename I, typename E>
+struct NogroupT {
+ using EmptyTrait = std::true_type;
+};
+
+template <typename T, typename I, typename E>
+struct NontemporalT {
+ using List = ObjectListT<I, E>;
+ using WrapperTrait = std::true_type;
+ List v;
+};
+
+template <typename T, typename I, typename E>
+struct NoOpenmpT {
+ using EmptyTrait = std::true_type;
+};
+
+template <typename T, typename I, typename E>
+struct NoOpenmpRoutinesT {
+ using EmptyTrait = std::true_type;
+};
+
+template <typename T, typename I, typename E>
+struct NoParallelismT {
+ using EmptyTrait = std::true_type;
+};
+
+template <typename T, typename I, typename E>
+struct NotinbranchT {
+ using EmptyTrait = std::true_type;
+};
+
+template <typename T, typename I, typename E>
+struct NovariantsT {
+ using DoNotUseVariant = E;
+ using WrapperTrait = std::true_type;
+ DoNotUseVariant v;
+};
+
+template <typename T, typename I, typename E>
+struct NowaitT {
+ using EmptyTrait = std::true_type;
+};
+
+template <typename T, typename I, typename E>
+struct NumTasksT {
+ using NumTasks = E;
+ ENUM(Prescriptiveness, Strict);
+ using TupleTrait = std::true_type;
+ std::tuple<OPT(Prescriptiveness), NumTasks> t;
+};
+
+template <typename T, typename I, typename E>
+struct NumTeamsT {
+ using TupleTrait = std::true_type;
+ using LowerBound = E;
+ using UpperBound = E;
+ std::tuple<OPT(LowerBound), UpperBound> t;
+};
+
+template <typename T, typename I, typename E>
+struct NumThreadsT {
+ using Nthreads = E;
+ using WrapperTrait = std::true_type;
+ Nthreads v;
+};
+
+template <typename T, typename I, typename E>
+struct OmpxAttributeT {
+ using EmptyTrait = std::true_type;
+};
+
+template <typename T, typename I, typename E>
+struct OmpxBareT {
+ using EmptyTrait = std::true_type;
+};
+
+template <typename T, typename I, typename E>
+struct OmpxDynCgroupMemT {
+ using WrapperTrait = std::true_type;
+ E v;
+};
+
+template <typename T, typename I, typename E>
+struct OrderT {
+ ENUM(OrderModifier, Reproducible, Unconstrained);
+ ENUM(Ordering, Concurrent);
+ using TupleTrait = std::true_type;
+ std::tuple<OPT(OrderModifier), Ordering> t;
+};
+
+template <typename T, typename I, typename E>
+struct OrderedT {
+ using N = E;
+ using WrapperTrait = std::true_type;
+ OPT(N) v;
+};
+
+template <typename T, typename I, typename E>
+struct OtherwiseT {
+ using IncompleteTrait = std::true_type;
+};
+
+template <typename T, typename I, typename E>
+struct PartialT {
+ using UnrollFactor = E;
+ using WrapperTrait = std::true_type;
+ OPT(UnrollFactor) v;
+};
+
+template <typename T, typename I, typename E>
+struct PriorityT {
+ using PriorityValue = E;
+ using WrapperTrait = std::true_type;
+ PriorityValue v;
+};
+
+template <typename T, typename I, typename E>
+struct PrivateT {
+ using List = ObjectListT<I, E>;
+ using WrapperTrait = std::true_type;
+ List v;
+};
+
+template <typename T, typename I, typename E>
+struct ProcBindT {
+ ENUM(AffinityPolicy, Close, Master, Spread, Primary);
+ using WrapperTrait = std::true_type;
+ AffinityPolicy v;
+};
+
+template <typename T, typename I, typename E>
+struct ReadT {
+ using EmptyTrait = std::true_type;
+};
+
+template <typename T, typename I, typename E>
+struct ReductionT {
+ using List = ObjectListT<I, E>;
+ using ReductionIdentifier = type::ReductionIdentifierT<I, E>;
+ ENUM(ReductionModifier, Default, Inscan, Task);
+ using TupleTrait = std::true_type;
+ std::tuple<ReductionIdentifier, OPT(ReductionModifier), List> t;
+};
+
+template <typename T, typename I, typename E>
+struct RelaxedT {
+ using EmptyTrait = std::true_type;
+};
+
+template <typename T, typename I, typename E>
+struct ReleaseT {
+ using EmptyTrait = std::true_type;
+};
+
+template <typename T, typename I, typename E>
+struct ReverseOffloadT {
+ using EmptyTrait = std::true_type;
+};
+
+template <typename T, typename I, typename E>
+struct SafelenT {
+ using Length = E;
+ using WrapperTrait = std::true_type;
+ Length v;
+};
+
+template <typename T, typename I, typename E>
+struct ScheduleT {
+ ENUM(Kind, Static, Dynamic, Guided, Auto, Runtime);
+ using ChunkSize = E;
+ ENUM(OrderingModifier, Monotonic, Nonmonotonic);
+ ENUM(ChunkModifier, Simd);
+ using TupleTrait = std::true_type;
+ std::tuple<Kind, OPT(OrderingModifier), OPT(ChunkModifier), OPT(ChunkSize)> t;
+};
+
+template <typename T, typename I, typename E>
+struct SeqCstT {
+ using EmptyTrait = std::true_type;
+};
+
+template <typename T, typename I, typename E>
+struct SeverityT {
+ ENUM(SevLevel, Fatal, Warning);
+ using WrapperTrait = std::true_type;
+ SevLevel v;
+};
+
+template <typename T, typename I, typename E>
+struct SharedT {
+ using List = ObjectListT<I, E>;
+ using WrapperTrait = std::true_type;
+ List v;
+};
+
+template <typename T, typename I, typename E>
+struct SimdT {
+ using EmptyTrait = std::true_type;
+};
+
+template <typename T, typename I, typename E>
+struct SimdlenT {
+ using Length = E;
+ using WrapperTrait = std::true_type;
+ Length v;
+};
+
+template <typename T, typename I, typename E>
+struct SizesT {
+ using SizeList = ListT<E>;
+ using WrapperTrait = std::true_type;
+ SizeList v;
+};
+
+template <typename T, typename I, typename E>
+struct TaskReductionT {
+ using List = ObjectListT<I, E>;
+ using ReductionIdentifier = type::ReductionIdentifierT<I, E>;
+ using TupleTrait = std::true_type;
+ std::tuple<ReductionIdentifier, List> t;
+};
+
+template <typename T, typename I, typename E>
+struct ThreadLimitT {
+ using Threadlim = E;
+ using WrapperTrait = std::true_type;
+ Threadlim v;
+};
+
+template <typename T, typename I, typename E>
+struct ThreadsT {
+ using EmptyTrait = std::true_type;
+};
+
+template <typename T, typename I, typename E>
+struct ToT {
+ using LocatorList = ObjectListT<I, E>;
+ using Expectation = type::MotionExpectation;
+ using Mapper = type::MapperT<I, E>;
+ using Iterator = type::IteratorT<T, I, E>;
+
+ using TupleTrait = std::true_type;
+ std::tuple<OPT(Expectation), OPT(Mapper), OPT(Iterator), LocatorList> t;
+};
+
+template <typename T, typename I, typename E>
+struct UnifiedAddressT {
+ using EmptyTrait = std::true_type;
+};
+
+template <typename T, typename I, typename E>
+struct UnifiedSharedMemoryT {
+ using EmptyTrait = std::true_type;
+};
+
+template <typename T, typename I, typename E>
+struct UniformT {
+ using ParameterList = ObjectListT<I, E>;
+ using WrapperTrait = std::true_type;
+ ParameterList v;
+};
+
+template <typename T, typename I, typename E>
+struct UnknownT {
+ using EmptyTrait = std::true_type;
+};
+
+template <typename T, typename I, typename E>
+struct UntiedT {
+ using EmptyTrait = std::true_type;
+};
+
+template <typename T, typename I, typename E>
+struct UpdateT {
+ using TaskDependenceType = tomp::type::TaskDependenceType;
+ using WrapperTrait = std::true_type;
+ OPT(TaskDependenceType) v;
+};
+
+template <typename T, typename I, typename E>
+struct UseT {
+ using InteropVar = ObjectT<I, E>;
+ using WrapperTrait = std::true_type;
+ InteropVar v;
+};
+
+template <typename T, typename I, typename E>
+struct UseDeviceAddrT {
+ using List = ObjectListT<I, E>;
+ using WrapperTrait = std::true_type;
+ List v;
+};
+
+template <typename T, typename I, typename E>
+struct UseDevicePtrT {
+ using List = ObjectListT<I, E>;
+ using WrapperTrait = std::true_type;
+ List v;
+};
+
+template <typename T, typename I, typename E>
+struct UsesAllocatorsT {
+ using MemSpace = E;
+ using TraitsArray = ObjectT<I, E>;
+ using Allocator = E;
+ using AllocatorSpec =
+ std::tuple<OPT(MemSpace), OPT(TraitsArray), Allocator>; // Not a spec name
+ using Allocators = ListT<AllocatorSpec>; // Not a spec name
+ using WrapperTrait = std::true_type;
+ Allocators v;
+};
+
+template <typename T, typename I, typename E>
+struct WeakT {
+ using EmptyTrait = std::true_type;
+};
+
+template <typename T, typename I, typename E>
+struct WhenT {
+ using IncompleteTrait = std::true_type;
+};
+
+template <typename T, typename I, typename E>
+struct WriteT {
+ using EmptyTrait = std::true_type;
+};
+
+// ---
+
+template <typename T, typename I, typename E>
+using ExtensionClausesT =
+ std::variant<OmpxAttributeT<T, I, E>, OmpxBareT<T, I, E>,
+ OmpxDynCgroupMemT<T, I, E>>;
+
+template <typename T, typename I, typename E>
+using EmptyClausesT = std::variant<
+ AcqRelT<T, I, E>, AcquireT<T, I, E>, CaptureT<T, I, E>, CompareT<T, I, E>,
+ DynamicAllocatorsT<T, I, E>, FullT<T, I, E>, InbranchT<T, I, E>,
+ MergeableT<T, I, E>, NogroupT<T, I, E>, NoOpenmpRoutinesT<T, I, E>,
+ NoOpenmpT<T, I, E>, NoParallelismT<T, I, E>, NotinbranchT<T, I, E>,
+ NowaitT<T, I, E>, ReadT<T, I, E>, RelaxedT<T, I, E>, ReleaseT<T, I, E>,
+ ReverseOffloadT<T, I, E>, SeqCstT<T, I, E>, SimdT<T, I, E>,
+ ThreadsT<T, I, E>, UnifiedAddressT<T, I, E>, UnifiedSharedMemoryT<T, I, E>,
+ UnknownT<T, I, E>, UntiedT<T, I, E>, UseT<T, I, E>, WeakT<T, I, E>,
+ WriteT<T, I, E>>;
+
+template <typename T, typename I, typename E>
+using IncompleteClausesT =
+ std::variant<AdjustArgsT<T, I, E>, AppendArgsT<T, I, E>, MatchT<T, I, E>,
+ OtherwiseT<T, I, E>, WhenT<T, I, E>>;
+
+template <typename T, typename I, typename E>
+using TupleClausesT =
+ std::variant<AffinityT<T, I, E>, AlignedT<T, I, E>, AllocateT<T, I, E>,
+ DefaultmapT<T, I, E>, DeviceT<T, I, E>, DistScheduleT<T, I, E>,
+ DoacrossT<T, I, E>, FromT<T, I, E>, GrainsizeT<T, I, E>,
+ IfT<T, I, E>, InitT<T, I, E>, InReductionT<T, I, E>,
+ LastprivateT<T, I, E>, LinearT<T, I, E>, MapT<T, I, E>,
+ NumTasksT<T, I, E>, OrderT<T, I, E>, ReductionT<T, I, E>,
+ ScheduleT<T, I, E>, TaskReductionT<T, I, E>, ToT<T, I, E>>;
+
+template <typename T, typename I, typename E>
+using UnionClausesT = std::variant<DependT<T, I, E>>;
+
+template <typename T, typename I, typename E>
+using WrapperClausesT = std::variant<
+ AbsentT<T, I, E>, AlignT<T, I, E>, AllocatorT<T, I, E>,
+ AtomicDefaultMemOrderT<T, I, E>, AtT<T, I, E>, BindT<T, I, E>,
+ CollapseT<T, I, E>, ContainsT<T, I, E>, CopyinT<T, I, E>,
+ CopyprivateT<T, I, E>, DefaultT<T, I, E>, DestroyT<T, I, E>,
+ DetachT<T, I, E>, DeviceTypeT<T, I, E>, EnterT<T, I, E>,
+ ExclusiveT<T, I, E>, FailT<T, I, E>, FilterT<T, I, E>, FinalT<T, I, E>,
+ FirstprivateT<T, I, E>, HasDeviceAddrT<T, I, E>, HintT<T, I, E>,
+ HoldsT<T, I, E>, InclusiveT<T, I, E>, IndirectT<T, I, E>,
+ InitializerT<T, I, E>, IsDevicePtrT<T, I, E>, LinkT<T, I, E>,
+ MessageT<T, I, E>, NocontextT<T, I, E>, NontemporalT<T, I, E>,
+ NovariantsT<T, I, E>, NumTeamsT<T, I, E>, NumThreadsT<T, I, E>,
+ OrderedT<T, I, E>, PartialT<T, I, E>, PriorityT<T, I, E>, PrivateT<T, I, E>,
+ ProcBindT<T, I, E>, SafelenT<T, I, E>, SeverityT<T, I, E>, SharedT<T, I, E>,
+ SimdlenT<T, I, E>, SizesT<T, I, E>, ThreadLimitT<T, I, E>,
+ UniformT<T, I, E>, UpdateT<T, I, E>, UseDeviceAddrT<T, I, E>,
+ UseDevicePtrT<T, I, E>, UsesAllocatorsT<T, I, E>>;
+
+template <typename T, typename I, typename E>
+using UnionOfAllClausesT = typename type::Union< //
+ EmptyClausesT<T, I, E>, //
+ ExtensionClausesT<T, I, E>, //
+ IncompleteClausesT<T, I, E>, //
+ TupleClausesT<T, I, E>, //
+ UnionClausesT<T, I, E>, //
+ WrapperClausesT<T, I, E> //
+ >::type;
+
+} // namespace clause
+
+// The variant wrapper that encapsulates all possible specific clauses.
+// The `Extras` arguments are additional types representing local extensions
+// to the clause set, e.g.
+//
+// using Clause = ClauseT<Type, Id, Expr,
+// MyClause1, MyClause2>;
+//
+// The member Clause::u will be a variant containing all specific clauses
+// defined above, plus MyClause1 and MyClause2.
+template <typename TypeType, typename IdType, typename ExprType,
+ typename... Extras>
+struct ClauseT {
+ using TypeTy = TypeType;
+ using IdTy = IdType;
+ using ExprTy = ExprType;
+
+ using VariantTy = typename type::Union<
+ clause::UnionOfAllClausesT<TypeType, IdType, ExprType>,
+ std::variant<Extras...>>::type;
+
+ llvm::omp::Clause id; // The numeric id of the clause
+ using UnionTrait = std::true_type;
+ VariantTy u;
+};
+
+} // namespace tomp
+
+#undef OPT
+#undef ENUM
+
+#endif // FORTRAN_LOWER_OPENMP_CLAUSET_H
>From d002a0f16dcb9249490ff5a4bc973ecdb095e0f6 Mon Sep 17 00:00:00 2001
From: Krzysztof Parzyszek <Krzysztof.Parzyszek at amd.com>
Date: Fri, 22 Mar 2024 09:57:51 -0500
Subject: [PATCH 2/4] Remove few functions left over from ongoing work
---
flang/lib/Lower/OpenMP/Utils.cpp | 26 --------------------------
flang/lib/Lower/OpenMP/Utils.h | 9 ---------
2 files changed, 35 deletions(-)
diff --git a/flang/lib/Lower/OpenMP/Utils.cpp b/flang/lib/Lower/OpenMP/Utils.cpp
index 2e26c84749cf46..53b09f5fb6895f 100644
--- a/flang/lib/Lower/OpenMP/Utils.cpp
+++ b/flang/lib/Lower/OpenMP/Utils.cpp
@@ -37,11 +37,6 @@ namespace Fortran {
namespace lower {
namespace omp {
-uint32_t getOpenMPVersion(mlir::ModuleOp mod) {
- mlir::Attribute verAttr = mod->getAttr("omp.version");
- return llvm::cast<mlir::omp::VersionAttr>(verAttr).getVersion();
-}
-
void genObjectList(const ObjectList &objects,
Fortran::lower::AbstractConverter &converter,
llvm::SmallVectorImpl<mlir::Value> &operands) {
@@ -126,27 +121,6 @@ getOmpObjectSymbol(const Fortran::parser::OmpObject &ompObject) {
return sym;
}
-Fortran::semantics::Symbol *
-getIterationVariableSymbol(const Fortran::lower::pft::Evaluation &eval) {
- return eval.visit(Fortran::common::visitors{
- [&](const Fortran::parser::DoConstruct &doLoop) {
- if (const auto &maybeCtrl = doLoop.GetLoopControl()) {
- using LoopControl = Fortran::parser::LoopControl;
- if (auto *bounds = std::get_if<LoopControl::Bounds>(&maybeCtrl->u)) {
- static_assert(
- std::is_same_v<decltype(bounds->name),
- Fortran::parser::Scalar<Fortran::parser::Name>>);
- return bounds->name.thing.symbol;
- }
- }
- return static_cast<Fortran::semantics::Symbol *>(nullptr);
- },
- [](auto &&) {
- return static_cast<Fortran::semantics::Symbol *>(nullptr);
- },
- });
-}
-
} // namespace omp
} // namespace lower
} // namespace Fortran
diff --git a/flang/lib/Lower/OpenMP/Utils.h b/flang/lib/Lower/OpenMP/Utils.h
index 0027288b0f92f7..673be93da1a8e1 100644
--- a/flang/lib/Lower/OpenMP/Utils.h
+++ b/flang/lib/Lower/OpenMP/Utils.h
@@ -36,14 +36,8 @@ struct OmpObjectList;
namespace lower {
class AbstractConverter;
-namespace pft {
-struct Evaluation;
-} // namespace pft
-
namespace omp {
-uint32_t getOpenMPVersion(mlir::ModuleOp mod);
-
using DeclareTargetCapturePair =
std::pair<mlir::omp::DeclareTargetCaptureClause,
const Fortran::semantics::Symbol &>;
@@ -74,9 +68,6 @@ void genObjectList2(const Fortran::parser::OmpObjectList &objectList,
Fortran::lower::AbstractConverter &converter,
llvm::SmallVectorImpl<mlir::Value> &operands);
-Fortran::semantics::Symbol *
-getIterationVariableSymbol(const Fortran::lower::pft::Evaluation &eval);
-
} // namespace omp
} // namespace lower
} // namespace Fortran
>From d710fce4c45d63d464924b361a99ed52d864b5dd Mon Sep 17 00:00:00 2001
From: Krzysztof Parzyszek <Krzysztof.Parzyszek at amd.com>
Date: Fri, 22 Mar 2024 10:00:05 -0500
Subject: [PATCH 3/4] Undo formatting leftovers
---
flang/lib/Lower/OpenMP/Utils.cpp | 1 -
flang/lib/Lower/OpenMP/Utils.h | 1 +
2 files changed, 1 insertion(+), 1 deletion(-)
diff --git a/flang/lib/Lower/OpenMP/Utils.cpp b/flang/lib/Lower/OpenMP/Utils.cpp
index 53b09f5fb6895f..b9c0660aa4da8e 100644
--- a/flang/lib/Lower/OpenMP/Utils.cpp
+++ b/flang/lib/Lower/OpenMP/Utils.cpp
@@ -16,7 +16,6 @@
#include <flang/Lower/AbstractConverter.h>
#include <flang/Lower/ConvertType.h>
#include <flang/Optimizer/Builder/FIRBuilder.h>
-#include <flang/Lower/PFTBuilder.h>
#include <flang/Parser/parse-tree.h>
#include <flang/Parser/tools.h>
#include <flang/Semantics/tools.h>
diff --git a/flang/lib/Lower/OpenMP/Utils.h b/flang/lib/Lower/OpenMP/Utils.h
index 673be93da1a8e1..4074bf73987d5b 100644
--- a/flang/lib/Lower/OpenMP/Utils.h
+++ b/flang/lib/Lower/OpenMP/Utils.h
@@ -34,6 +34,7 @@ struct OmpObjectList;
} // namespace parser
namespace lower {
+
class AbstractConverter;
namespace omp {
>From 4fe8d30cd9c2809c647805784a156d1d3f9f683c Mon Sep 17 00:00:00 2001
From: Krzysztof Parzyszek <Krzysztof.Parzyszek at amd.com>
Date: Fri, 22 Mar 2024 10:11:16 -0500
Subject: [PATCH 4/4] clang-format
---
llvm/include/llvm/Frontend/OpenMP/ClauseT.h | 311 +++++++++-----------
1 file changed, 147 insertions(+), 164 deletions(-)
diff --git a/llvm/include/llvm/Frontend/OpenMP/ClauseT.h b/llvm/include/llvm/Frontend/OpenMP/ClauseT.h
index 88544d65293110..584dc922794ecf 100644
--- a/llvm/include/llvm/Frontend/OpenMP/ClauseT.h
+++ b/llvm/include/llvm/Frontend/OpenMP/ClauseT.h
@@ -78,22 +78,18 @@
namespace detail {
// Type trait to determine whether T is a specialization of std::variant.
-template <typename T>
-struct is_variant {
+template <typename T> struct is_variant {
static constexpr bool value = false;
};
-template <typename... Ts>
-struct is_variant<std::variant<Ts...>> {
+template <typename... Ts> struct is_variant<std::variant<Ts...>> {
static constexpr bool value = true;
};
-template <typename T>
-constexpr bool is_variant_v = is_variant<T>::value;
+template <typename T> constexpr bool is_variant_v = is_variant<T>::value;
// Helper utility to create a type which is a union of two given variants.
-template <typename...>
-struct UnionOfTwo;
+template <typename...> struct UnionOfTwo;
template <typename... Types1, typename... Types2>
struct UnionOfTwo<std::variant<Types1...>, std::variant<Types2...>> {
@@ -106,24 +102,20 @@ namespace type {
// Helper utility to create a type which is a union of an arbitrary number
// of variants.
-template <typename...>
-struct Union;
+template <typename...> struct Union;
-template <>
-struct Union<> {
+template <> struct Union<> {
// Legal to define, illegal to instantiate.
using type = std::variant<>;
};
-template <typename T, typename... Ts>
-struct Union<T, Ts...> {
+template <typename T, typename... Ts> struct Union<T, Ts...> {
static_assert(detail::is_variant_v<T>);
using type =
typename detail::UnionOfTwo<T, typename Union<Ts...>::type>::type;
};
-template <typename T>
-using ListT = llvm::SmallVector<T, 0>;
+template <typename T> using ListT = llvm::SmallVector<T, 0>;
// The ObjectT class represents a variable (as defined in the OpenMP spec).
//
@@ -151,15 +143,13 @@ using ListT = llvm::SmallVector<T, 0>;
//
// Note: the ObjectT template is not defined. Any user of it is expected to
// provide their own specialization that conforms to the above requirements.
-template <typename IdType, typename ExprType>
-struct ObjectT;
+template <typename IdType, typename ExprType> struct ObjectT;
-template <typename I, typename E>
-using ObjectListT = ListT<ObjectT<I, E>>;
+template <typename I, typename E> using ObjectListT = ListT<ObjectT<I, E>>;
using DirectiveName = llvm::omp::Directive;
-template <typename I, typename E>
+template <typename I, typename E> //
struct DefinedOperatorT {
struct DefinedOpName {
using WrapperTrait = std::true_type;
@@ -171,21 +161,21 @@ struct DefinedOperatorT {
std::variant<DefinedOpName, IntrinsicOperator> u;
};
-template <typename E>
+template <typename E> //
struct RangeT {
// range-specification: begin : end[: step]
using TupleTrait = std::true_type;
std::tuple<E, E, OPT(E)> t;
};
-template <typename TypeType, typename IdType, typename ExprType>
+template <typename TypeType, typename IdType, typename ExprType> //
struct IteratorSpecifierT {
// iterators-specifier: [ iterator-type ] identifier = range-specification
using TupleTrait = std::true_type;
std::tuple<OPT(TypeType), ObjectT<IdType, ExprType>, RangeT<ExprType>> t;
};
-template <typename I, typename E>
+template <typename I, typename E> //
struct MapperT {
using MapperIdentifier = ObjectT<I, E>;
using WrapperTrait = std::true_type;
@@ -196,7 +186,7 @@ ENUM(MemoryOrder, AcqRel, Acquire, Relaxed, Release, SeqCst);
ENUM(MotionExpectation, Present);
ENUM(TaskDependenceType, In, Out, Inout, Mutexinoutset, Inoutset, Depobj);
-template <typename I, typename E>
+template <typename I, typename E> //
struct LoopIterationT {
struct Distance {
using TupleTrait = std::true_type;
@@ -206,33 +196,29 @@ struct LoopIterationT {
std::tuple<ObjectT<I, E>, OPT(Distance)> t;
};
-template <typename I, typename E>
+template <typename I, typename E> //
struct ProcedureDesignatorT {
using WrapperTrait = std::true_type;
ObjectT<I, E> v;
};
-template <typename I, typename E>
+template <typename I, typename E> //
struct ReductionIdentifierT {
using UnionTrait = std::true_type;
std::variant<DefinedOperatorT<I, E>, ProcedureDesignatorT<I, E>> u;
};
-template <typename T, typename I, typename E>
+template <typename T, typename I, typename E> //
using IteratorT = ListT<IteratorSpecifierT<T, I, E>>;
} // namespace type
-template <typename T>
-using ListT = type::ListT<T>;
-
-template <typename I, typename E>
-using ObjectT = type::ObjectT<I, E>;
+template <typename T> using ListT = type::ListT<T>;
-template <typename I, typename E>
-using ObjectListT = type::ObjectListT<I, E>;
+template <typename I, typename E> using ObjectT = type::ObjectT<I, E>;
+template <typename I, typename E> using ObjectListT = type::ObjectListT<I, E>;
-template <typename T, typename I, typename E>
-using IteratorT = type::IteratorT<T, I, E>;
+template <typename T, typename I, typename E> using IteratorT =
+ type::IteratorT<T, I, E>;
template <
typename ContainerTy, typename FunctionTy,
@@ -245,29 +231,29 @@ ListT<ResultTy> makeList(ContainerTy &&container, FunctionTy &&func) {
}
namespace clause {
-template <typename T, typename I, typename E>
+template <typename T, typename I, typename E> //
struct AbsentT {
using List = ListT<type::DirectiveName>;
using WrapperTrait = std::true_type;
List v;
};
-template <typename T, typename I, typename E>
+template <typename T, typename I, typename E> //
struct AcqRelT {
using EmptyTrait = std::true_type;
};
-template <typename T, typename I, typename E>
+template <typename T, typename I, typename E> //
struct AcquireT {
using EmptyTrait = std::true_type;
};
-template <typename T, typename I, typename E>
+template <typename T, typename I, typename E> //
struct AdjustArgsT {
using IncompleteTrait = std::true_type;
};
-template <typename T, typename I, typename E>
+template <typename T, typename I, typename E> //
struct AffinityT {
using Iterator = type::IteratorT<T, I, E>;
using LocatorList = ObjectListT<I, E>;
@@ -276,7 +262,7 @@ struct AffinityT {
std::tuple<OPT(Iterator), LocatorList> t;
};
-template <typename T, typename I, typename E>
+template <typename T, typename I, typename E> //
struct AlignT {
using Alignment = E;
@@ -284,7 +270,7 @@ struct AlignT {
Alignment v;
};
-template <typename T, typename I, typename E>
+template <typename T, typename I, typename E> //
struct AlignedT {
using Alignment = E;
using List = ObjectListT<I, E>;
@@ -293,10 +279,10 @@ struct AlignedT {
std::tuple<OPT(Alignment), List> t;
};
-template <typename T, typename I, typename E>
+template <typename T, typename I, typename E> //
struct AllocatorT;
-template <typename T, typename I, typename E>
+template <typename T, typename I, typename E> //
struct AllocateT {
using AllocatorSimpleModifier = E;
using AllocatorComplexModifier = AllocatorT<T, I, E>;
@@ -309,85 +295,85 @@ struct AllocateT {
t;
};
-template <typename T, typename I, typename E>
+template <typename T, typename I, typename E> //
struct AllocatorT {
using Allocator = E;
using WrapperTrait = std::true_type;
Allocator v;
};
-template <typename T, typename I, typename E>
+template <typename T, typename I, typename E> //
struct AppendArgsT {
using IncompleteTrait = std::true_type;
};
-template <typename T, typename I, typename E>
+template <typename T, typename I, typename E> //
struct AtT {
ENUM(ActionTime, Compilation, Execution);
using WrapperTrait = std::true_type;
ActionTime v;
};
-template <typename T, typename I, typename E>
+template <typename T, typename I, typename E> //
struct AtomicDefaultMemOrderT {
using MemoryOrder = type::MemoryOrder;
using WrapperTrait = std::true_type;
MemoryOrder v; // Name not provided in spec
};
-template <typename T, typename I, typename E>
+template <typename T, typename I, typename E> //
struct BindT {
ENUM(Binding, Teams, Parallel, Thread);
using WrapperTrait = std::true_type;
Binding v;
};
-template <typename T, typename I, typename E>
+template <typename T, typename I, typename E> //
struct CaptureT {
using EmptyTrait = std::true_type;
};
-template <typename T, typename I, typename E>
+template <typename T, typename I, typename E> //
struct CollapseT {
using N = E;
using WrapperTrait = std::true_type;
N v;
};
-template <typename T, typename I, typename E>
+template <typename T, typename I, typename E> //
struct CompareT {
using EmptyTrait = std::true_type;
};
-template <typename T, typename I, typename E>
+template <typename T, typename I, typename E> //
struct ContainsT {
using List = ListT<type::DirectiveName>;
using WrapperTrait = std::true_type;
List v;
};
-template <typename T, typename I, typename E>
+template <typename T, typename I, typename E> //
struct CopyinT {
using List = ObjectListT<I, E>;
using WrapperTrait = std::true_type;
List v;
};
-template <typename T, typename I, typename E>
+template <typename T, typename I, typename E> //
struct CopyprivateT {
using List = ObjectListT<I, E>;
using WrapperTrait = std::true_type;
List v;
};
-template <typename T, typename I, typename E>
+template <typename T, typename I, typename E> //
struct DefaultT {
ENUM(DataSharingAttribute, Firstprivate, None, Private, Shared);
using WrapperTrait = std::true_type;
DataSharingAttribute v;
};
-template <typename T, typename I, typename E>
+template <typename T, typename I, typename E> //
struct DefaultmapT {
ENUM(ImplicitBehavior, Alloc, To, From, Tofrom, Firstprivate, None, Default,
Present);
@@ -396,10 +382,10 @@ struct DefaultmapT {
std::tuple<ImplicitBehavior, OPT(VariableCategory)> t;
};
-template <typename T, typename I, typename E>
+template <typename T, typename I, typename E> //
struct DoacrossT;
-template <typename T, typename I, typename E>
+template <typename T, typename I, typename E> //
struct DependT {
using Iterator = type::IteratorT<T, I, E>;
using LocatorList = ObjectListT<I, E>;
@@ -416,7 +402,7 @@ struct DependT {
std::variant<Doacross, WithLocators> u; // Doacross form is legacy
};
-template <typename T, typename I, typename E>
+template <typename T, typename I, typename E> //
struct DestroyT {
using DestroyVar = ObjectT<I, E>;
using WrapperTrait = std::true_type;
@@ -424,14 +410,14 @@ struct DestroyT {
OPT(DestroyVar) v;
};
-template <typename T, typename I, typename E>
+template <typename T, typename I, typename E> //
struct DetachT {
using EventHandle = ObjectT<I, E>;
using WrapperTrait = std::true_type;
EventHandle v;
};
-template <typename T, typename I, typename E>
+template <typename T, typename I, typename E> //
struct DeviceT {
using DeviceDescription = E;
ENUM(DeviceModifier, Ancestor, DeviceNum);
@@ -439,14 +425,14 @@ struct DeviceT {
std::tuple<OPT(DeviceModifier), DeviceDescription> t;
};
-template <typename T, typename I, typename E>
+template <typename T, typename I, typename E> //
struct DeviceTypeT {
ENUM(DeviceTypeDescription, Any, Host, Nohost);
using WrapperTrait = std::true_type;
DeviceTypeDescription v;
};
-template <typename T, typename I, typename E>
+template <typename T, typename I, typename E> //
struct DistScheduleT {
ENUM(Kind, Static);
using ChunkSize = E;
@@ -454,7 +440,7 @@ struct DistScheduleT {
std::tuple<Kind, OPT(ChunkSize)> t;
};
-template <typename T, typename I, typename E>
+template <typename T, typename I, typename E> //
struct DoacrossT {
using Vector = ListT<type::LoopIterationT<I, E>>;
ENUM(DependenceType, Source, Sink);
@@ -463,54 +449,54 @@ struct DoacrossT {
std::tuple<DependenceType, Vector> t;
};
-template <typename T, typename I, typename E>
+template <typename T, typename I, typename E> //
struct DynamicAllocatorsT {
using EmptyTrait = std::true_type;
};
-template <typename T, typename I, typename E>
+template <typename T, typename I, typename E> //
struct EnterT {
using List = ObjectListT<I, E>;
using WrapperTrait = std::true_type;
List v;
};
-template <typename T, typename I, typename E>
+template <typename T, typename I, typename E> //
struct ExclusiveT {
using WrapperTrait = std::true_type;
using List = ObjectListT<I, E>;
List v;
};
-template <typename T, typename I, typename E>
+template <typename T, typename I, typename E> //
struct FailT {
using MemoryOrder = type::MemoryOrder;
using WrapperTrait = std::true_type;
MemoryOrder v;
};
-template <typename T, typename I, typename E>
+template <typename T, typename I, typename E> //
struct FilterT {
using ThreadNum = E;
using WrapperTrait = std::true_type;
ThreadNum v;
};
-template <typename T, typename I, typename E>
+template <typename T, typename I, typename E> //
struct FinalT {
using Finalize = E;
using WrapperTrait = std::true_type;
Finalize v;
};
-template <typename T, typename I, typename E>
+template <typename T, typename I, typename E> //
struct FirstprivateT {
using List = ObjectListT<I, E>;
using WrapperTrait = std::true_type;
List v;
};
-template <typename T, typename I, typename E>
+template <typename T, typename I, typename E> //
struct FromT {
using LocatorList = ObjectListT<I, E>;
using Expectation = type::MotionExpectation;
@@ -521,12 +507,12 @@ struct FromT {
std::tuple<OPT(Expectation), OPT(Mapper), OPT(Iterator), LocatorList> t;
};
-template <typename T, typename I, typename E>
+template <typename T, typename I, typename E> //
struct FullT {
using EmptyTrait = std::true_type;
};
-template <typename T, typename I, typename E>
+template <typename T, typename I, typename E> //
struct GrainsizeT {
ENUM(Prescriptiveness, Strict);
using GrainSize = E;
@@ -534,27 +520,27 @@ struct GrainsizeT {
std::tuple<OPT(Prescriptiveness), GrainSize> t;
};
-template <typename T, typename I, typename E>
+template <typename T, typename I, typename E> //
struct HasDeviceAddrT {
using List = ObjectListT<I, E>;
using WrapperTrait = std::true_type;
List v;
};
-template <typename T, typename I, typename E>
+template <typename T, typename I, typename E> //
struct HintT {
using HintExpr = E;
using WrapperTrait = std::true_type;
HintExpr v;
};
-template <typename T, typename I, typename E>
+template <typename T, typename I, typename E> //
struct HoldsT {
using WrapperTrait = std::true_type;
E v; // No argument name in spec 5.2
};
-template <typename T, typename I, typename E>
+template <typename T, typename I, typename E> //
struct IfT {
using DirectiveNameModifier = type::DirectiveName;
using IfExpression = E;
@@ -562,26 +548,26 @@ struct IfT {
std::tuple<OPT(DirectiveNameModifier), IfExpression> t;
};
-template <typename T, typename I, typename E>
+template <typename T, typename I, typename E> //
struct InbranchT {
using EmptyTrait = std::true_type;
};
-template <typename T, typename I, typename E>
+template <typename T, typename I, typename E> //
struct InclusiveT {
using List = ObjectListT<I, E>;
using WrapperTrait = std::true_type;
List v;
};
-template <typename T, typename I, typename E>
+template <typename T, typename I, typename E> //
struct IndirectT {
using InvokedByFptr = E;
using WrapperTrait = std::true_type;
InvokedByFptr v;
};
-template <typename T, typename I, typename E>
+template <typename T, typename I, typename E> //
struct InitT {
using ForeignRuntimeId = E;
using InteropVar = ObjectT<I, E>;
@@ -593,14 +579,14 @@ struct InitT {
std::tuple<OPT(InteropPreference), InteropTypes, InteropVar> t;
};
-template <typename T, typename I, typename E>
+template <typename T, typename I, typename E> //
struct InitializerT {
using InitializerExpr = E;
using WrapperTrait = std::true_type;
InitializerExpr v;
};
-template <typename T, typename I, typename E>
+template <typename T, typename I, typename E> //
struct InReductionT {
using List = ObjectListT<I, E>;
using ReductionIdentifier = type::ReductionIdentifierT<I, E>;
@@ -608,14 +594,14 @@ struct InReductionT {
std::tuple<ReductionIdentifier, List> t;
};
-template <typename T, typename I, typename E>
+template <typename T, typename I, typename E> //
struct IsDevicePtrT {
using List = ObjectListT<I, E>;
using WrapperTrait = std::true_type;
List v;
};
-template <typename T, typename I, typename E>
+template <typename T, typename I, typename E> //
struct LastprivateT {
using List = ObjectListT<I, E>;
ENUM(LastprivateModifier, Conditional);
@@ -623,7 +609,7 @@ struct LastprivateT {
std::tuple<OPT(LastprivateModifier), List> t;
};
-template <typename T, typename I, typename E>
+template <typename T, typename I, typename E> //
struct LinearT {
// std::get<type> won't work here due to duplicate types in the tuple.
using List = ObjectListT<I, E>;
@@ -638,14 +624,14 @@ struct LinearT {
t;
};
-template <typename T, typename I, typename E>
+template <typename T, typename I, typename E> //
struct LinkT {
using List = ObjectListT<I, E>;
using WrapperTrait = std::true_type;
List v;
};
-template <typename T, typename I, typename E>
+template <typename T, typename I, typename E> //
struct MapT {
using LocatorList = ObjectListT<I, E>;
ENUM(MapType, To, From, Tofrom, Alloc, Release, Delete);
@@ -660,75 +646,75 @@ struct MapT {
t;
};
-template <typename T, typename I, typename E>
+template <typename T, typename I, typename E> //
struct MatchT {
using IncompleteTrait = std::true_type;
};
-template <typename T, typename I, typename E>
+template <typename T, typename I, typename E> //
struct MergeableT {
using EmptyTrait = std::true_type;
};
-template <typename T, typename I, typename E>
+template <typename T, typename I, typename E> //
struct MessageT {
using MsgString = E;
using WrapperTrait = std::true_type;
MsgString v;
};
-template <typename T, typename I, typename E>
+template <typename T, typename I, typename E> //
struct NocontextT {
using DoNotUpdateContext = E;
using WrapperTrait = std::true_type;
DoNotUpdateContext v;
};
-template <typename T, typename I, typename E>
+template <typename T, typename I, typename E> //
struct NogroupT {
using EmptyTrait = std::true_type;
};
-template <typename T, typename I, typename E>
+template <typename T, typename I, typename E> //
struct NontemporalT {
using List = ObjectListT<I, E>;
using WrapperTrait = std::true_type;
List v;
};
-template <typename T, typename I, typename E>
+template <typename T, typename I, typename E> //
struct NoOpenmpT {
using EmptyTrait = std::true_type;
};
-template <typename T, typename I, typename E>
+template <typename T, typename I, typename E> //
struct NoOpenmpRoutinesT {
using EmptyTrait = std::true_type;
};
-template <typename T, typename I, typename E>
+template <typename T, typename I, typename E> //
struct NoParallelismT {
using EmptyTrait = std::true_type;
};
-template <typename T, typename I, typename E>
+template <typename T, typename I, typename E> //
struct NotinbranchT {
using EmptyTrait = std::true_type;
};
-template <typename T, typename I, typename E>
+template <typename T, typename I, typename E> //
struct NovariantsT {
using DoNotUseVariant = E;
using WrapperTrait = std::true_type;
DoNotUseVariant v;
};
-template <typename T, typename I, typename E>
+template <typename T, typename I, typename E> //
struct NowaitT {
using EmptyTrait = std::true_type;
};
-template <typename T, typename I, typename E>
+template <typename T, typename I, typename E> //
struct NumTasksT {
using NumTasks = E;
ENUM(Prescriptiveness, Strict);
@@ -736,7 +722,7 @@ struct NumTasksT {
std::tuple<OPT(Prescriptiveness), NumTasks> t;
};
-template <typename T, typename I, typename E>
+template <typename T, typename I, typename E> //
struct NumTeamsT {
using TupleTrait = std::true_type;
using LowerBound = E;
@@ -744,30 +730,30 @@ struct NumTeamsT {
std::tuple<OPT(LowerBound), UpperBound> t;
};
-template <typename T, typename I, typename E>
+template <typename T, typename I, typename E> //
struct NumThreadsT {
using Nthreads = E;
using WrapperTrait = std::true_type;
Nthreads v;
};
-template <typename T, typename I, typename E>
+template <typename T, typename I, typename E> //
struct OmpxAttributeT {
using EmptyTrait = std::true_type;
};
-template <typename T, typename I, typename E>
+template <typename T, typename I, typename E> //
struct OmpxBareT {
using EmptyTrait = std::true_type;
};
-template <typename T, typename I, typename E>
+template <typename T, typename I, typename E> //
struct OmpxDynCgroupMemT {
using WrapperTrait = std::true_type;
E v;
};
-template <typename T, typename I, typename E>
+template <typename T, typename I, typename E> //
struct OrderT {
ENUM(OrderModifier, Reproducible, Unconstrained);
ENUM(Ordering, Concurrent);
@@ -775,52 +761,52 @@ struct OrderT {
std::tuple<OPT(OrderModifier), Ordering> t;
};
-template <typename T, typename I, typename E>
+template <typename T, typename I, typename E> //
struct OrderedT {
using N = E;
using WrapperTrait = std::true_type;
OPT(N) v;
};
-template <typename T, typename I, typename E>
+template <typename T, typename I, typename E> //
struct OtherwiseT {
using IncompleteTrait = std::true_type;
};
-template <typename T, typename I, typename E>
+template <typename T, typename I, typename E> //
struct PartialT {
using UnrollFactor = E;
using WrapperTrait = std::true_type;
OPT(UnrollFactor) v;
};
-template <typename T, typename I, typename E>
+template <typename T, typename I, typename E> //
struct PriorityT {
using PriorityValue = E;
using WrapperTrait = std::true_type;
PriorityValue v;
};
-template <typename T, typename I, typename E>
+template <typename T, typename I, typename E> //
struct PrivateT {
using List = ObjectListT<I, E>;
using WrapperTrait = std::true_type;
List v;
};
-template <typename T, typename I, typename E>
+template <typename T, typename I, typename E> //
struct ProcBindT {
ENUM(AffinityPolicy, Close, Master, Spread, Primary);
using WrapperTrait = std::true_type;
AffinityPolicy v;
};
-template <typename T, typename I, typename E>
+template <typename T, typename I, typename E> //
struct ReadT {
using EmptyTrait = std::true_type;
};
-template <typename T, typename I, typename E>
+template <typename T, typename I, typename E> //
struct ReductionT {
using List = ObjectListT<I, E>;
using ReductionIdentifier = type::ReductionIdentifierT<I, E>;
@@ -829,29 +815,29 @@ struct ReductionT {
std::tuple<ReductionIdentifier, OPT(ReductionModifier), List> t;
};
-template <typename T, typename I, typename E>
+template <typename T, typename I, typename E> //
struct RelaxedT {
using EmptyTrait = std::true_type;
};
-template <typename T, typename I, typename E>
+template <typename T, typename I, typename E> //
struct ReleaseT {
using EmptyTrait = std::true_type;
};
-template <typename T, typename I, typename E>
+template <typename T, typename I, typename E> //
struct ReverseOffloadT {
using EmptyTrait = std::true_type;
};
-template <typename T, typename I, typename E>
+template <typename T, typename I, typename E> //
struct SafelenT {
using Length = E;
using WrapperTrait = std::true_type;
Length v;
};
-template <typename T, typename I, typename E>
+template <typename T, typename I, typename E> //
struct ScheduleT {
ENUM(Kind, Static, Dynamic, Guided, Auto, Runtime);
using ChunkSize = E;
@@ -861,45 +847,45 @@ struct ScheduleT {
std::tuple<Kind, OPT(OrderingModifier), OPT(ChunkModifier), OPT(ChunkSize)> t;
};
-template <typename T, typename I, typename E>
+template <typename T, typename I, typename E> //
struct SeqCstT {
using EmptyTrait = std::true_type;
};
-template <typename T, typename I, typename E>
+template <typename T, typename I, typename E> //
struct SeverityT {
ENUM(SevLevel, Fatal, Warning);
using WrapperTrait = std::true_type;
SevLevel v;
};
-template <typename T, typename I, typename E>
+template <typename T, typename I, typename E> //
struct SharedT {
using List = ObjectListT<I, E>;
using WrapperTrait = std::true_type;
List v;
};
-template <typename T, typename I, typename E>
+template <typename T, typename I, typename E> //
struct SimdT {
using EmptyTrait = std::true_type;
};
-template <typename T, typename I, typename E>
+template <typename T, typename I, typename E> //
struct SimdlenT {
using Length = E;
using WrapperTrait = std::true_type;
Length v;
};
-template <typename T, typename I, typename E>
+template <typename T, typename I, typename E> //
struct SizesT {
using SizeList = ListT<E>;
using WrapperTrait = std::true_type;
SizeList v;
};
-template <typename T, typename I, typename E>
+template <typename T, typename I, typename E> //
struct TaskReductionT {
using List = ObjectListT<I, E>;
using ReductionIdentifier = type::ReductionIdentifierT<I, E>;
@@ -907,19 +893,19 @@ struct TaskReductionT {
std::tuple<ReductionIdentifier, List> t;
};
-template <typename T, typename I, typename E>
+template <typename T, typename I, typename E> //
struct ThreadLimitT {
using Threadlim = E;
using WrapperTrait = std::true_type;
Threadlim v;
};
-template <typename T, typename I, typename E>
+template <typename T, typename I, typename E> //
struct ThreadsT {
using EmptyTrait = std::true_type;
};
-template <typename T, typename I, typename E>
+template <typename T, typename I, typename E> //
struct ToT {
using LocatorList = ObjectListT<I, E>;
using Expectation = type::MotionExpectation;
@@ -930,62 +916,62 @@ struct ToT {
std::tuple<OPT(Expectation), OPT(Mapper), OPT(Iterator), LocatorList> t;
};
-template <typename T, typename I, typename E>
+template <typename T, typename I, typename E> //
struct UnifiedAddressT {
using EmptyTrait = std::true_type;
};
-template <typename T, typename I, typename E>
+template <typename T, typename I, typename E> //
struct UnifiedSharedMemoryT {
using EmptyTrait = std::true_type;
};
-template <typename T, typename I, typename E>
+template <typename T, typename I, typename E> //
struct UniformT {
using ParameterList = ObjectListT<I, E>;
using WrapperTrait = std::true_type;
ParameterList v;
};
-template <typename T, typename I, typename E>
+template <typename T, typename I, typename E> //
struct UnknownT {
using EmptyTrait = std::true_type;
};
-template <typename T, typename I, typename E>
+template <typename T, typename I, typename E> //
struct UntiedT {
using EmptyTrait = std::true_type;
};
-template <typename T, typename I, typename E>
+template <typename T, typename I, typename E> //
struct UpdateT {
using TaskDependenceType = tomp::type::TaskDependenceType;
using WrapperTrait = std::true_type;
OPT(TaskDependenceType) v;
};
-template <typename T, typename I, typename E>
+template <typename T, typename I, typename E> //
struct UseT {
using InteropVar = ObjectT<I, E>;
using WrapperTrait = std::true_type;
InteropVar v;
};
-template <typename T, typename I, typename E>
+template <typename T, typename I, typename E> //
struct UseDeviceAddrT {
using List = ObjectListT<I, E>;
using WrapperTrait = std::true_type;
List v;
};
-template <typename T, typename I, typename E>
+template <typename T, typename I, typename E> //
struct UseDevicePtrT {
using List = ObjectListT<I, E>;
using WrapperTrait = std::true_type;
List v;
};
-template <typename T, typename I, typename E>
+template <typename T, typename I, typename E> //
struct UsesAllocatorsT {
using MemSpace = E;
using TraitsArray = ObjectT<I, E>;
@@ -997,25 +983,24 @@ struct UsesAllocatorsT {
Allocators v;
};
-template <typename T, typename I, typename E>
+template <typename T, typename I, typename E> //
struct WeakT {
using EmptyTrait = std::true_type;
};
-template <typename T, typename I, typename E>
+template <typename T, typename I, typename E> //
struct WhenT {
using IncompleteTrait = std::true_type;
};
-template <typename T, typename I, typename E>
+template <typename T, typename I, typename E> //
struct WriteT {
using EmptyTrait = std::true_type;
};
// ---
-template <typename T, typename I, typename E>
-using ExtensionClausesT =
+template <typename T, typename I, typename E> using ExtensionClausesT =
std::variant<OmpxAttributeT<T, I, E>, OmpxBareT<T, I, E>,
OmpxDynCgroupMemT<T, I, E>>;
@@ -1031,13 +1016,11 @@ using EmptyClausesT = std::variant<
UnknownT<T, I, E>, UntiedT<T, I, E>, UseT<T, I, E>, WeakT<T, I, E>,
WriteT<T, I, E>>;
-template <typename T, typename I, typename E>
-using IncompleteClausesT =
+template <typename T, typename I, typename E> using IncompleteClausesT =
std::variant<AdjustArgsT<T, I, E>, AppendArgsT<T, I, E>, MatchT<T, I, E>,
OtherwiseT<T, I, E>, WhenT<T, I, E>>;
-template <typename T, typename I, typename E>
-using TupleClausesT =
+template <typename T, typename I, typename E> using TupleClausesT =
std::variant<AffinityT<T, I, E>, AlignedT<T, I, E>, AllocateT<T, I, E>,
DefaultmapT<T, I, E>, DeviceT<T, I, E>, DistScheduleT<T, I, E>,
DoacrossT<T, I, E>, FromT<T, I, E>, GrainsizeT<T, I, E>,
@@ -1046,8 +1029,8 @@ using TupleClausesT =
NumTasksT<T, I, E>, OrderT<T, I, E>, ReductionT<T, I, E>,
ScheduleT<T, I, E>, TaskReductionT<T, I, E>, ToT<T, I, E>>;
-template <typename T, typename I, typename E>
-using UnionClausesT = std::variant<DependT<T, I, E>>;
+template <typename T, typename I, typename E> using UnionClausesT =
+ std::variant<DependT<T, I, E>>;
template <typename T, typename I, typename E>
using WrapperClausesT = std::variant<
@@ -1068,15 +1051,15 @@ using WrapperClausesT = std::variant<
UniformT<T, I, E>, UpdateT<T, I, E>, UseDeviceAddrT<T, I, E>,
UseDevicePtrT<T, I, E>, UsesAllocatorsT<T, I, E>>;
-template <typename T, typename I, typename E>
-using UnionOfAllClausesT = typename type::Union< //
- EmptyClausesT<T, I, E>, //
- ExtensionClausesT<T, I, E>, //
- IncompleteClausesT<T, I, E>, //
- TupleClausesT<T, I, E>, //
- UnionClausesT<T, I, E>, //
- WrapperClausesT<T, I, E> //
- >::type;
+template <typename T, typename I, typename E> using UnionOfAllClausesT =
+ typename type::Union< //
+ EmptyClausesT<T, I, E>, //
+ ExtensionClausesT<T, I, E>, //
+ IncompleteClausesT<T, I, E>, //
+ TupleClausesT<T, I, E>, //
+ UnionClausesT<T, I, E>, //
+ WrapperClausesT<T, I, E> //
+ >::type;
} // namespace clause
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