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android / toolchain / llvm-project / refs/heads/android12-mainline-networkstack-release / . / flang / lib / Semantics / check-omp-structure.cpp
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//===-- lib/Semantics/check-omp-structure.cpp -----------------------------===//
//
// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
// See https://llvm.org/LICENSE.txt for license information.
// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
//
//===----------------------------------------------------------------------===//
#include "check-omp-structure.h"
#include "flang/Parser/parse-tree.h"
#include "flang/Semantics/tools.h"
#include <algorithm>
namespace Fortran::semantics {
// Use when clause falls under 'struct OmpClause' in 'parse-tree.h'.
#define CHECK_SIMPLE_CLAUSE(X, Y) \
void OmpStructureChecker::Enter(const parser::OmpClause::X &) { \
CheckAllowed(llvm::omp::Clause::Y); \
}
#define CHECK_REQ_CONSTANT_SCALAR_INT_CLAUSE(X, Y) \
void OmpStructureChecker::Enter(const parser::OmpClause::X &c) { \
CheckAllowed(llvm::omp::Clause::Y); \
RequiresConstantPositiveParameter(llvm::omp::Clause::Y, c.v); \
}
#define CHECK_REQ_SCALAR_INT_CLAUSE(X, Y) \
void OmpStructureChecker::Enter(const parser::OmpClause::X &c) { \
CheckAllowed(llvm::omp::Clause::Y); \
RequiresPositiveParameter(llvm::omp::Clause::Y, c.v); \
}
// Use when clause don't falls under 'struct OmpClause' in 'parse-tree.h'.
#define CHECK_SIMPLE_PARSER_CLAUSE(X, Y) \
void OmpStructureChecker::Enter(const parser::X &) { \
CheckAllowed(llvm::omp::Y); \
}
bool OmpStructureChecker::HasInvalidWorksharingNesting(
const parser::CharBlock &source, const OmpDirectiveSet &set) {
// set contains all the invalid closely nested directives
// for the given directive (`source` here)
if (CurrentDirectiveIsNested() && set.test(GetContext().directive)) {
context_.Say(source,
"A worksharing region may not be closely nested inside a "
"worksharing, explicit task, taskloop, critical, ordered, atomic, or "
"master region"_err_en_US);
return true;
}
return false;
}
void OmpStructureChecker::Enter(const parser::OpenMPConstruct &) {
// 2.8.1 TODO: Simd Construct with Ordered Construct Nesting check
}
void OmpStructureChecker::Enter(const parser::OpenMPLoopConstruct &x) {
const auto &beginLoopDir{std::get<parser::OmpBeginLoopDirective>(x.t)};
const auto &beginDir{std::get<parser::OmpLoopDirective>(beginLoopDir.t)};
// check matching, End directive is optional
if (const auto &endLoopDir{
std::get<std::optional<parser::OmpEndLoopDirective>>(x.t)}) {
const auto &endDir{
std::get<parser::OmpLoopDirective>(endLoopDir.value().t)};
CheckMatching<parser::OmpLoopDirective>(beginDir, endDir);
}
if (beginDir.v != llvm::omp::Directive::OMPD_do) {
PushContextAndClauseSets(beginDir.source, beginDir.v);
} else {
// 2.7.1 do-clause -> private-clause |
// firstprivate-clause |
// lastprivate-clause |
// linear-clause |
// reduction-clause |
// schedule-clause |
// collapse-clause |
// ordered-clause
// nesting check
HasInvalidWorksharingNesting(beginDir.source,
{llvm::omp::Directive::OMPD_do, llvm::omp::Directive::OMPD_sections,
llvm::omp::Directive::OMPD_single,
llvm::omp::Directive::OMPD_workshare,
llvm::omp::Directive::OMPD_task,
llvm::omp::Directive::OMPD_taskloop,
llvm::omp::Directive::OMPD_critical,
llvm::omp::Directive::OMPD_ordered,
llvm::omp::Directive::OMPD_atomic,
llvm::omp::Directive::OMPD_master});
PushContextAndClauseSets(beginDir.source, llvm::omp::Directive::OMPD_do);
}
}
void OmpStructureChecker::Leave(const parser::OpenMPLoopConstruct &) {
dirContext_.pop_back();
}
void OmpStructureChecker::Enter(const parser::OmpEndLoopDirective &x) {
const auto &dir{std::get<parser::OmpLoopDirective>(x.t)};
ResetPartialContext(dir.source);
switch (dir.v) {
// 2.7.1 end-do -> END DO [nowait-clause]
// 2.8.3 end-do-simd -> END DO SIMD [nowait-clause]
case llvm::omp::Directive::OMPD_do:
case llvm::omp::Directive::OMPD_do_simd:
SetClauseSets(dir.v);
break;
default:
// no clauses are allowed
break;
}
}
void OmpStructureChecker::Enter(const parser::OpenMPBlockConstruct &x) {
const auto &beginBlockDir{std::get<parser::OmpBeginBlockDirective>(x.t)};
const auto &endBlockDir{std::get<parser::OmpEndBlockDirective>(x.t)};
const auto &beginDir{std::get<parser::OmpBlockDirective>(beginBlockDir.t)};
const auto &endDir{std::get<parser::OmpBlockDirective>(endBlockDir.t)};
const parser::Block &block{std::get<parser::Block>(x.t)};
CheckMatching<parser::OmpBlockDirective>(beginDir, endDir);
PushContextAndClauseSets(beginDir.source, beginDir.v);
switch (beginDir.v) {
case llvm::omp::OMPD_parallel:
CheckNoBranching(block, llvm::omp::OMPD_parallel, beginDir.source);
break;
default:
break;
}
}
void OmpStructureChecker::Leave(const parser::OpenMPBlockConstruct &) {
dirContext_.pop_back();
}
void OmpStructureChecker::Enter(const parser::OpenMPSectionsConstruct &x) {
const auto &beginSectionsDir{
std::get<parser::OmpBeginSectionsDirective>(x.t)};
const auto &endSectionsDir{std::get<parser::OmpEndSectionsDirective>(x.t)};
const auto &beginDir{
std::get<parser::OmpSectionsDirective>(beginSectionsDir.t)};
const auto &endDir{std::get<parser::OmpSectionsDirective>(endSectionsDir.t)};
CheckMatching<parser::OmpSectionsDirective>(beginDir, endDir);
PushContextAndClauseSets(beginDir.source, beginDir.v);
}
void OmpStructureChecker::Leave(const parser::OpenMPSectionsConstruct &) {
dirContext_.pop_back();
}
void OmpStructureChecker::Enter(const parser::OmpEndSectionsDirective &x) {
const auto &dir{std::get<parser::OmpSectionsDirective>(x.t)};
ResetPartialContext(dir.source);
switch (dir.v) {
// 2.7.2 end-sections -> END SECTIONS [nowait-clause]
case llvm::omp::Directive::OMPD_sections:
PushContextAndClauseSets(
dir.source, llvm::omp::Directive::OMPD_end_sections);
break;
default:
// no clauses are allowed
break;
}
}
void OmpStructureChecker::Enter(const parser::OpenMPDeclareSimdConstruct &x) {
const auto &dir{std::get<parser::Verbatim>(x.t)};
PushContextAndClauseSets(dir.source, llvm::omp::Directive::OMPD_declare_simd);
}
void OmpStructureChecker::Leave(const parser::OpenMPDeclareSimdConstruct &) {
dirContext_.pop_back();
}
void OmpStructureChecker::Enter(const parser::OpenMPDeclareTargetConstruct &x) {
const auto &dir{std::get<parser::Verbatim>(x.t)};
PushContext(dir.source, llvm::omp::Directive::OMPD_declare_target);
const auto &spec{std::get<parser::OmpDeclareTargetSpecifier>(x.t)};
if (std::holds_alternative<parser::OmpDeclareTargetWithClause>(spec.u)) {
SetClauseSets(llvm::omp::Directive::OMPD_declare_target);
}
}
void OmpStructureChecker::Leave(const parser::OpenMPDeclareTargetConstruct &) {
dirContext_.pop_back();
}
void OmpStructureChecker::Enter(
const parser::OpenMPSimpleStandaloneConstruct &x) {
const auto &dir{std::get<parser::OmpSimpleStandaloneDirective>(x.t)};
PushContextAndClauseSets(dir.source, dir.v);
}
void OmpStructureChecker::Leave(
const parser::OpenMPSimpleStandaloneConstruct &) {
dirContext_.pop_back();
}
void OmpStructureChecker::Enter(const parser::OpenMPFlushConstruct &x) {
const auto &dir{std::get<parser::Verbatim>(x.t)};
PushContextAndClauseSets(dir.source, llvm::omp::Directive::OMPD_flush);
}
void OmpStructureChecker::Leave(const parser::OpenMPFlushConstruct &) {
dirContext_.pop_back();
}
void OmpStructureChecker::Enter(const parser::OpenMPCancelConstruct &x) {
const auto &dir{std::get<parser::Verbatim>(x.t)};
PushContextAndClauseSets(dir.source, llvm::omp::Directive::OMPD_cancel);
}
void OmpStructureChecker::Leave(const parser::OpenMPCancelConstruct &) {
dirContext_.pop_back();
}
void OmpStructureChecker::Enter(const parser::OpenMPCriticalConstruct &x) {
const auto &dir{std::get<parser::OmpCriticalDirective>(x.t)};
PushContextAndClauseSets(dir.source, llvm::omp::Directive::OMPD_critical);
}
void OmpStructureChecker::Leave(const parser::OpenMPCriticalConstruct &) {
dirContext_.pop_back();
}
void OmpStructureChecker::Enter(
const parser::OpenMPCancellationPointConstruct &x) {
const auto &dir{std::get<parser::Verbatim>(x.t)};
PushContextAndClauseSets(
dir.source, llvm::omp::Directive::OMPD_cancellation_point);
}
void OmpStructureChecker::Leave(
const parser::OpenMPCancellationPointConstruct &) {
dirContext_.pop_back();
}
void OmpStructureChecker::Enter(const parser::OmpEndBlockDirective &x) {
const auto &dir{std::get<parser::OmpBlockDirective>(x.t)};
ResetPartialContext(dir.source);
switch (dir.v) {
// 2.7.3 end-single-clause -> copyprivate-clause |
// nowait-clause
case llvm::omp::Directive::OMPD_single:
PushContextAndClauseSets(dir.source, llvm::omp::Directive::OMPD_end_single);
break;
// 2.7.4 end-workshare -> END WORKSHARE [nowait-clause]
case llvm::omp::Directive::OMPD_workshare:
PushContextAndClauseSets(
dir.source, llvm::omp::Directive::OMPD_end_workshare);
break;
default:
// no clauses are allowed
break;
}
}
// Clauses
// Mainly categorized as
// 1. Checks on 'OmpClauseList' from 'parse-tree.h'.
// 2. Checks on clauses which fall under 'struct OmpClause' from parse-tree.h.
// 3. Checks on clauses which are not in 'struct OmpClause' from parse-tree.h.
void OmpStructureChecker::Leave(const parser::OmpClauseList &) {
// 2.7 Loop Construct Restriction
if (llvm::omp::doSet.test(GetContext().directive)) {
if (auto *clause{FindClause(llvm::omp::Clause::OMPC_schedule)}) {
// only one schedule clause is allowed
const auto &schedClause{std::get<parser::OmpScheduleClause>(clause->u)};
if (ScheduleModifierHasType(schedClause,
parser::OmpScheduleModifierType::ModType::Nonmonotonic)) {
if (FindClause(llvm::omp::Clause::OMPC_ordered)) {
context_.Say(clause->source,
"The NONMONOTONIC modifier cannot be specified "
"if an ORDERED clause is specified"_err_en_US);
}
if (ScheduleModifierHasType(schedClause,
parser::OmpScheduleModifierType::ModType::Monotonic)) {
context_.Say(clause->source,
"The MONOTONIC and NONMONOTONIC modifiers "
"cannot be both specified"_err_en_US);
}
}
}
if (auto *clause{FindClause(llvm::omp::Clause::OMPC_ordered)}) {
// only one ordered clause is allowed
const auto &orderedClause{
std::get<parser::OmpClause::Ordered>(clause->u)};
if (orderedClause.v) {
CheckNotAllowedIfClause(
llvm::omp::Clause::OMPC_ordered, {llvm::omp::Clause::OMPC_linear});
if (auto *clause2{FindClause(llvm::omp::Clause::OMPC_collapse)}) {
const auto &collapseClause{
std::get<parser::OmpClause::Collapse>(clause2->u)};
// ordered and collapse both have parameters
if (const auto orderedValue{GetIntValue(orderedClause.v)}) {
if (const auto collapseValue{GetIntValue(collapseClause.v)}) {
if (*orderedValue > 0 && *orderedValue < *collapseValue) {
context_.Say(clause->source,
"The parameter of the ORDERED clause must be "
"greater than or equal to "
"the parameter of the COLLAPSE clause"_err_en_US);
}
}
}
}
}
// TODO: ordered region binding check (requires nesting implementation)
}
} // doSet
// 2.8.1 Simd Construct Restriction
if (llvm::omp::simdSet.test(GetContext().directive)) {
if (auto *clause{FindClause(llvm::omp::Clause::OMPC_simdlen)}) {
if (auto *clause2{FindClause(llvm::omp::Clause::OMPC_safelen)}) {
const auto &simdlenClause{
std::get<parser::OmpClause::Simdlen>(clause->u)};
const auto &safelenClause{
std::get<parser::OmpClause::Safelen>(clause2->u)};
// simdlen and safelen both have parameters
if (const auto simdlenValue{GetIntValue(simdlenClause.v)}) {
if (const auto safelenValue{GetIntValue(safelenClause.v)}) {
if (*safelenValue > 0 && *simdlenValue > *safelenValue) {
context_.Say(clause->source,
"The parameter of the SIMDLEN clause must be less than or "
"equal to the parameter of the SAFELEN clause"_err_en_US);
}
}
}
}
}
// TODO: A list-item cannot appear in more than one aligned clause
} // SIMD
// 2.7.3 Single Construct Restriction
if (GetContext().directive == llvm::omp::Directive::OMPD_end_single) {
CheckNotAllowedIfClause(
llvm::omp::Clause::OMPC_copyprivate, {llvm::omp::Clause::OMPC_nowait});
}
GetContext().requiredClauses.IterateOverMembers(
[this](llvm::omp::Clause c) { CheckRequired(c); });
}
void OmpStructureChecker::Enter(const parser::OmpClause &x) {
SetContextClause(x);
}
// Following clauses do not have a seperate node in parse-tree.h.
// They fall under 'struct OmpClause' in parse-tree.h.
CHECK_SIMPLE_CLAUSE(Copyin, OMPC_copyin)
CHECK_SIMPLE_CLAUSE(Copyprivate, OMPC_copyprivate)
CHECK_SIMPLE_CLAUSE(Device, OMPC_device)
CHECK_SIMPLE_CLAUSE(Final, OMPC_final)
CHECK_SIMPLE_CLAUSE(Firstprivate, OMPC_firstprivate)
CHECK_SIMPLE_CLAUSE(From, OMPC_from)
CHECK_SIMPLE_CLAUSE(Inbranch, OMPC_inbranch)
CHECK_SIMPLE_CLAUSE(IsDevicePtr, OMPC_is_device_ptr)
CHECK_SIMPLE_CLAUSE(Lastprivate, OMPC_lastprivate)
CHECK_SIMPLE_CLAUSE(Link, OMPC_link)
CHECK_SIMPLE_CLAUSE(Mergeable, OMPC_mergeable)
CHECK_SIMPLE_CLAUSE(Nogroup, OMPC_nogroup)
CHECK_SIMPLE_CLAUSE(Notinbranch, OMPC_notinbranch)
CHECK_SIMPLE_CLAUSE(To, OMPC_to)
CHECK_SIMPLE_CLAUSE(Uniform, OMPC_uniform)
CHECK_SIMPLE_CLAUSE(Untied, OMPC_untied)
CHECK_SIMPLE_CLAUSE(UseDevicePtr, OMPC_use_device_ptr)
CHECK_SIMPLE_CLAUSE(AcqRel, OMPC_acq_rel)
CHECK_SIMPLE_CLAUSE(Acquire, OMPC_acquire)
CHECK_SIMPLE_CLAUSE(SeqCst, OMPC_seq_cst)
CHECK_SIMPLE_CLAUSE(Release, OMPC_release)
CHECK_SIMPLE_CLAUSE(Relaxed, OMPC_relaxed)
CHECK_REQ_SCALAR_INT_CLAUSE(Grainsize, OMPC_grainsize)
CHECK_REQ_SCALAR_INT_CLAUSE(NumTasks, OMPC_num_tasks)
CHECK_REQ_SCALAR_INT_CLAUSE(NumTeams, OMPC_num_teams)
CHECK_REQ_SCALAR_INT_CLAUSE(NumThreads, OMPC_num_threads)
CHECK_REQ_SCALAR_INT_CLAUSE(Priority, OMPC_priority)
CHECK_REQ_SCALAR_INT_CLAUSE(ThreadLimit, OMPC_thread_limit)
CHECK_REQ_CONSTANT_SCALAR_INT_CLAUSE(Collapse, OMPC_collapse)
CHECK_REQ_CONSTANT_SCALAR_INT_CLAUSE(Safelen, OMPC_safelen)
CHECK_REQ_CONSTANT_SCALAR_INT_CLAUSE(Simdlen, OMPC_simdlen)
// Restrictions specific to each clause are implemented apart from the
// generalized restrictions.
void OmpStructureChecker::Enter(const parser::OmpClause::Ordered &x) {
CheckAllowed(llvm::omp::Clause::OMPC_ordered);
// the parameter of ordered clause is optional
if (const auto &expr{x.v}) {
RequiresConstantPositiveParameter(llvm::omp::Clause::OMPC_ordered, *expr);
// 2.8.3 Loop SIMD Construct Restriction
if (llvm::omp::doSimdSet.test(GetContext().directive)) {
context_.Say(GetContext().clauseSource,
"No ORDERED clause with a parameter can be specified "
"on the %s directive"_err_en_US,
ContextDirectiveAsFortran());
}
}
}
void OmpStructureChecker::Enter(const parser::OmpClause::Shared &x) {
CheckAllowed(llvm::omp::Clause::OMPC_shared);
CheckIsVarPartOfAnotherVar(x.v);
}
void OmpStructureChecker::Enter(const parser::OmpClause::Private &x) {
CheckAllowed(llvm::omp::Clause::OMPC_private);
CheckIsVarPartOfAnotherVar(x.v);
CheckIntentInPointer(x.v, llvm::omp::Clause::OMPC_private);
}
void OmpStructureChecker::CheckIsVarPartOfAnotherVar(
const parser::OmpObjectList &objList) {
for (const auto &ompObject : objList.v) {
std::visit(
common::visitors{
[&](const parser::Designator &designator) {
if (std::get_if<parser::DataRef>(&designator.u)) {
if ((parser::Unwrap<parser::StructureComponent>(ompObject)) ||
(parser::Unwrap<parser::ArrayElement>(ompObject))) {
context_.Say(GetContext().clauseSource,
"A variable that is part of another variable (as an "
"array or structure element)"
" cannot appear in a PRIVATE or SHARED clause."_err_en_US);
}
}
},
[&](const parser::Name &name) {},
},
ompObject.u);
}
}
// Following clauses have a seperate node in parse-tree.h.
CHECK_SIMPLE_PARSER_CLAUSE(OmpAllocateClause, OMPC_allocate)
CHECK_SIMPLE_PARSER_CLAUSE(OmpDefaultClause, OMPC_default)
CHECK_SIMPLE_PARSER_CLAUSE(OmpDistScheduleClause, OMPC_dist_schedule)
CHECK_SIMPLE_PARSER_CLAUSE(OmpNowait, OMPC_nowait)
CHECK_SIMPLE_PARSER_CLAUSE(OmpProcBindClause, OMPC_proc_bind)
CHECK_SIMPLE_PARSER_CLAUSE(OmpReductionClause, OMPC_reduction)
// Restrictions specific to each clause are implemented apart from the
// generalized restrictions.
void OmpStructureChecker::Enter(const parser::OmpAlignedClause &x) {
CheckAllowed(llvm::omp::Clause::OMPC_aligned);
if (const auto &expr{
std::get<std::optional<parser::ScalarIntConstantExpr>>(x.t)}) {
RequiresConstantPositiveParameter(llvm::omp::Clause::OMPC_aligned, *expr);
}
// 2.8.1 TODO: list-item attribute check
}
void OmpStructureChecker::Enter(const parser::OmpDefaultmapClause &x) {
CheckAllowed(llvm::omp::Clause::OMPC_defaultmap);
using VariableCategory = parser::OmpDefaultmapClause::VariableCategory;
if (!std::get<std::optional<VariableCategory>>(x.t)) {
context_.Say(GetContext().clauseSource,
"The argument TOFROM:SCALAR must be specified on the DEFAULTMAP "
"clause"_err_en_US);
}
}
void OmpStructureChecker::Enter(const parser::OmpIfClause &x) {
CheckAllowed(llvm::omp::Clause::OMPC_if);
using dirNameModifier = parser::OmpIfClause::DirectiveNameModifier;
static std::unordered_map<dirNameModifier, OmpDirectiveSet>
dirNameModifierMap{{dirNameModifier::Parallel, llvm::omp::parallelSet},
{dirNameModifier::Target, llvm::omp::targetSet},
{dirNameModifier::TargetEnterData,
{llvm::omp::Directive::OMPD_target_enter_data}},
{dirNameModifier::TargetExitData,
{llvm::omp::Directive::OMPD_target_exit_data}},
{dirNameModifier::TargetData,
{llvm::omp::Directive::OMPD_target_data}},
{dirNameModifier::TargetUpdate,
{llvm::omp::Directive::OMPD_target_update}},
{dirNameModifier::Task, {llvm::omp::Directive::OMPD_task}},
{dirNameModifier::Taskloop, llvm::omp::taskloopSet}};
if (const auto &directiveName{
std::get<std::optional<dirNameModifier>>(x.t)}) {
auto search{dirNameModifierMap.find(*directiveName)};
if (search == dirNameModifierMap.end() ||
!search->second.test(GetContext().directive)) {
context_
.Say(GetContext().clauseSource,
"Unmatched directive name modifier %s on the IF clause"_err_en_US,
parser::ToUpperCaseLetters(
parser::OmpIfClause::EnumToString(*directiveName)))
.Attach(
GetContext().directiveSource, "Cannot apply to directive"_en_US);
}
}
}
void OmpStructureChecker::Enter(const parser::OmpLinearClause &x) {
CheckAllowed(llvm::omp::Clause::OMPC_linear);
// 2.7 Loop Construct Restriction
if ((llvm::omp::doSet | llvm::omp::simdSet).test(GetContext().directive)) {
if (std::holds_alternative<parser::OmpLinearClause::WithModifier>(x.u)) {
context_.Say(GetContext().clauseSource,
"A modifier may not be specified in a LINEAR clause "
"on the %s directive"_err_en_US,
ContextDirectiveAsFortran());
}
}
}
void OmpStructureChecker::CheckAllowedMapTypes(
const parser::OmpMapType::Type &type,
const std::list<parser::OmpMapType::Type> &allowedMapTypeList) {
const auto found{std::find(
std::begin(allowedMapTypeList), std::end(allowedMapTypeList), type)};
if (found == std::end(allowedMapTypeList)) {
std::string commaSeperatedMapTypes;
llvm::interleave(
allowedMapTypeList.begin(), allowedMapTypeList.end(),
[&](const parser::OmpMapType::Type &mapType) {
commaSeperatedMapTypes.append(parser::ToUpperCaseLetters(
parser::OmpMapType::EnumToString(mapType)));
},
[&] { commaSeperatedMapTypes.append(", "); });
context_.Say(GetContext().clauseSource,
"Only the %s map types are permitted "
"for MAP clauses on the %s directive"_err_en_US,
commaSeperatedMapTypes, ContextDirectiveAsFortran());
}
}
void OmpStructureChecker::Enter(const parser::OmpMapClause &x) {
CheckAllowed(llvm::omp::Clause::OMPC_map);
if (const auto &maptype{std::get<std::optional<parser::OmpMapType>>(x.t)}) {
using Type = parser::OmpMapType::Type;
const Type &type{std::get<Type>(maptype->t)};
switch (GetContext().directive) {
case llvm::omp::Directive::OMPD_target:
case llvm::omp::Directive::OMPD_target_teams:
case llvm::omp::Directive::OMPD_target_teams_distribute:
case llvm::omp::Directive::OMPD_target_teams_distribute_simd:
case llvm::omp::Directive::OMPD_target_teams_distribute_parallel_do:
case llvm::omp::Directive::OMPD_target_teams_distribute_parallel_do_simd:
case llvm::omp::Directive::OMPD_target_data:
CheckAllowedMapTypes(
type, {Type::To, Type::From, Type::Tofrom, Type::Alloc});
break;
case llvm::omp::Directive::OMPD_target_enter_data:
CheckAllowedMapTypes(type, {Type::To, Type::Alloc});
break;
case llvm::omp::Directive::OMPD_target_exit_data:
CheckAllowedMapTypes(type, {Type::From, Type::Release, Type::Delete});
break;
default:
break;
}
}
}
bool OmpStructureChecker::ScheduleModifierHasType(
const parser::OmpScheduleClause &x,
const parser::OmpScheduleModifierType::ModType &type) {
const auto &modifier{
std::get<std::optional<parser::OmpScheduleModifier>>(x.t)};
if (modifier) {
const auto &modType1{
std::get<parser::OmpScheduleModifier::Modifier1>(modifier->t)};
const auto &modType2{
std::get<std::optional<parser::OmpScheduleModifier::Modifier2>>(
modifier->t)};
if (modType1.v.v == type || (modType2 && modType2->v.v == type)) {
return true;
}
}
return false;
}
void OmpStructureChecker::Enter(const parser::OmpScheduleClause &x) {
CheckAllowed(llvm::omp::Clause::OMPC_schedule);
// 2.7 Loop Construct Restriction
if (llvm::omp::doSet.test(GetContext().directive)) {
const auto &kind{std::get<1>(x.t)};
const auto &chunk{std::get<2>(x.t)};
if (chunk) {
if (kind == parser::OmpScheduleClause::ScheduleType::Runtime ||
kind == parser::OmpScheduleClause::ScheduleType::Auto) {
context_.Say(GetContext().clauseSource,
"When SCHEDULE clause has %s specified, "
"it must not have chunk size specified"_err_en_US,
parser::ToUpperCaseLetters(
parser::OmpScheduleClause::EnumToString(kind)));
}
if (const auto &chunkExpr{
std::get<std::optional<parser::ScalarIntExpr>>(x.t)}) {
RequiresPositiveParameter(
llvm::omp::Clause::OMPC_schedule, *chunkExpr, "chunk size");
}
}
if (ScheduleModifierHasType(
x, parser::OmpScheduleModifierType::ModType::Nonmonotonic)) {
if (kind != parser::OmpScheduleClause::ScheduleType::Dynamic &&
kind != parser::OmpScheduleClause::ScheduleType::Guided) {
context_.Say(GetContext().clauseSource,
"The NONMONOTONIC modifier can only be specified with "
"SCHEDULE(DYNAMIC) or SCHEDULE(GUIDED)"_err_en_US);
}
}
}
}
void OmpStructureChecker::Enter(const parser::OmpDependClause &x) {
CheckAllowed(llvm::omp::Clause::OMPC_depend);
if (const auto *inOut{std::get_if<parser::OmpDependClause::InOut>(&x.u)}) {
const auto &designators{std::get<std::list<parser::Designator>>(inOut->t)};
for (const auto &ele : designators) {
if (const auto *dataRef{std::get_if<parser::DataRef>(&ele.u)}) {
CheckDependList(*dataRef);
if (const auto *arr{
std::get_if<common::Indirection<parser::ArrayElement>>(
&dataRef->u)}) {
CheckDependArraySection(*arr, GetLastName(*dataRef));
}
}
}
}
}
llvm::StringRef OmpStructureChecker::getClauseName(llvm::omp::Clause clause) {
return llvm::omp::getOpenMPClauseName(clause);
}
llvm::StringRef OmpStructureChecker::getDirectiveName(
llvm::omp::Directive directive) {
return llvm::omp::getOpenMPDirectiveName(directive);
}
void OmpStructureChecker::CheckDependList(const parser::DataRef &d) {
std::visit(
common::visitors{
[&](const common::Indirection<parser::ArrayElement> &elem) {
// Check if the base element is valid on Depend Clause
CheckDependList(elem.value().base);
},
[&](const common::Indirection<parser::StructureComponent> &) {
context_.Say(GetContext().clauseSource,
"A variable that is part of another variable "
"(such as an element of a structure) but is not an array "
"element or an array section cannot appear in a DEPEND "
"clause"_err_en_US);
},
[&](const common::Indirection<parser::CoindexedNamedObject> &) {
context_.Say(GetContext().clauseSource,
"Coarrays are not supported in DEPEND clause"_err_en_US);
},
[&](const parser::Name &) { return; },
},
d.u);
}
void OmpStructureChecker::CheckDependArraySection(
const common::Indirection<parser::ArrayElement> &arr,
const parser::Name &name) {
for (const auto &subscript : arr.value().subscripts) {
if (const auto *triplet{
std::get_if<parser::SubscriptTriplet>(&subscript.u)}) {
if (std::get<2>(triplet->t)) {
context_.Say(GetContext().clauseSource,
"Stride should not be specified for array section in DEPEND "
"clause"_err_en_US);
}
const auto &lower{std::get<0>(triplet->t)};
const auto &upper{std::get<1>(triplet->t)};
if (lower && upper) {
const auto lval{GetIntValue(lower)};
const auto uval{GetIntValue(upper)};
if (lval && uval && *uval < *lval) {
context_.Say(GetContext().clauseSource,
"'%s' in DEPEND clause is a zero size array section"_err_en_US,
name.ToString());
break;
}
}
}
}
}
void OmpStructureChecker::CheckIntentInPointer(
const parser::OmpObjectList &objectList, const llvm::omp::Clause clause) {
std::vector<const Symbol *> symbols;
GetSymbolsInObjectList(objectList, symbols);
for (const auto *symbol : symbols) {
if (IsPointer(*symbol) && IsIntentIn(*symbol)) {
context_.Say(GetContext().clauseSource,
"Pointer '%s' with the INTENT(IN) attribute may not appear "
"in a %s clause"_err_en_US,
symbol->name(),
parser::ToUpperCaseLetters(getClauseName(clause).str()));
}
}
}
void OmpStructureChecker::GetSymbolsInObjectList(
const parser::OmpObjectList &objectList,
std::vector<const Symbol *> &symbols) {
for (const auto &ompObject : objectList.v) {
if (const auto *name{parser::Unwrap<parser::Name>(ompObject)}) {
if (const auto *symbol{name->symbol}) {
if (const auto *commonBlockDetails{
symbol->detailsIf<CommonBlockDetails>()}) {
for (const auto &object : commonBlockDetails->objects()) {
symbols.emplace_back(&object->GetUltimate());
}
} else {
symbols.emplace_back(&symbol->GetUltimate());
}
}
}
}
}
} // namespace Fortran::semantics