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check-coarray.cc
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//===-- lib/semantics/check-coarray.cc ------------------------------------===//
//
// 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-coarray.h"
#include "expression.h"
#include "tools.h"
#include "../common/indirection.h"
#include "../evaluate/expression.h"
#include "../parser/message.h"
#include "../parser/parse-tree.h"
#include "../parser/tools.h"
namespace Fortran::semantics {
class CriticalBodyEnforce {
public:
CriticalBodyEnforce(
SemanticsContext &context, parser::CharBlock criticalSourcePosition)
: context_{context}, criticalSourcePosition_{criticalSourcePosition} {}
std::set<parser::Label> labels() { return labels_; }
template<typename T> bool Pre(const T &) { return true; }
template<typename T> void Post(const T &) {}
template<typename T> bool Pre(const parser::Statement<T> &statement) {
currentStatementSourcePosition_ = statement.source;
if (statement.label.has_value()) {
labels_.insert(*statement.label);
}
return true;
}
// C1118
void Post(const parser::ReturnStmt &) {
context_
.Say(currentStatementSourcePosition_,
"RETURN statement is not allowed in a CRITICAL construct"_err_en_US)
.Attach(criticalSourcePosition_, GetEnclosingMsg());
}
void Post(const parser::ExecutableConstruct &construct) {
if (IsImageControlStmt(construct)) {
context_
.Say(currentStatementSourcePosition_,
"An image control statement is not allowed in a CRITICAL"
" construct"_err_en_US)
.Attach(criticalSourcePosition_, GetEnclosingMsg());
}
}
private:
parser::MessageFixedText GetEnclosingMsg() {
return "Enclosing CRITICAL statement"_en_US;
}
SemanticsContext &context_;
std::set<parser::Label> labels_;
parser::CharBlock currentStatementSourcePosition_;
parser::CharBlock criticalSourcePosition_;
};
template<typename T>
static void CheckTeamType(SemanticsContext &context, const T &x) {
if (const auto *expr{GetExpr(x)}) {
if (!IsTeamType(evaluate::GetDerivedTypeSpec(expr->GetType()))) {
context.Say(parser::FindSourceLocation(x), // C1114
"Team value must be of type TEAM_TYPE from module ISO_FORTRAN_ENV"_err_en_US);
}
}
}
void CoarrayChecker::Leave(const parser::ChangeTeamStmt &x) {
CheckNamesAreDistinct(std::get<std::list<parser::CoarrayAssociation>>(x.t));
CheckTeamType(context_, std::get<parser::TeamValue>(x.t));
}
void CoarrayChecker::Leave(const parser::SyncTeamStmt &x) {
CheckTeamType(context_, std::get<parser::TeamValue>(x.t));
}
void CoarrayChecker::Leave(const parser::ImageSelectorSpec &x) {
if (const auto *team{std::get_if<parser::TeamValue>(&x.u)}) {
CheckTeamType(context_, *team);
}
}
void CoarrayChecker::Leave(const parser::FormTeamStmt &x) {
CheckTeamType(context_, std::get<parser::TeamVariable>(x.t));
}
void CoarrayChecker::Enter(const parser::CriticalConstruct &x) {
auto &criticalStmt{std::get<parser::Statement<parser::CriticalStmt>>(x.t)};
const parser::Block &block{std::get<parser::Block>(x.t)};
CriticalBodyEnforce criticalBodyEnforce{context_, criticalStmt.source};
parser::Walk(block, criticalBodyEnforce);
// C1119
LabelEnforce criticalLabelEnforce{
context_, criticalBodyEnforce.labels(), criticalStmt.source, "CRITICAL"};
parser::Walk(block, criticalLabelEnforce);
}
// Check that coarray names and selector names are all distinct.
void CoarrayChecker::CheckNamesAreDistinct(
const std::list<parser::CoarrayAssociation> &list) {
std::set<parser::CharBlock> names;
auto getPreviousUse{
[&](const parser::Name &name) -> const parser::CharBlock * {
auto pair{names.insert(name.source)};
return !pair.second ? &*pair.first : nullptr;
}};
for (const auto &assoc : list) {
const auto &decl{std::get<parser::CodimensionDecl>(assoc.t)};
const auto &selector{std::get<parser::Selector>(assoc.t)};
const auto &declName{std::get<parser::Name>(decl.t)};
if (context_.HasError(declName)) {
continue; // already reported an error about this name
}
if (auto *prev{getPreviousUse(declName)}) {
Say2(declName.source, // C1113
"Coarray '%s' was already used as a selector or coarray in this statement"_err_en_US,
*prev, "Previous use of '%s'"_en_US);
}
// ResolveNames verified the selector is a simple name
const parser::Name *name{parser::Unwrap<parser::Name>(selector)};
if (name) {
if (auto *prev{getPreviousUse(*name)}) {
Say2(name->source, // C1113, C1115
"Selector '%s' was already used as a selector or coarray in this statement"_err_en_US,
*prev, "Previous use of '%s'"_en_US);
}
}
}
}
void CoarrayChecker::Say2(const parser::CharBlock &name1,
parser::MessageFixedText &&msg1, const parser::CharBlock &name2,
parser::MessageFixedText &&msg2) {
context_.Say(name1, std::move(msg1), name1)
.Attach(name2, std::move(msg2), name2);
}
}