llvm-project/flang/lib/Semantics/check-deallocate.cpp
Krzysztof Parzyszek d542fac6b1
[flang] Add traits to more AST nodes (#175578)
Follow-up to PR175211.

There are still a few AST nodes that don't have any of the standard
traits (Wrapper/Tuple/etc). Because of that they require special
handling in the parse tree visitor.

Convert a subset of these nodes to the typical format, and remove the
special cases from the parse tree visitor.

The members of these nodes were frequently used, so instead of
extracting them by hand each time use helper member functions to access
them.
2026-01-20 09:57:35 -06:00

151 lines
6.9 KiB
C++

//===-- lib/Semantics/check-deallocate.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-deallocate.h"
#include "check-allocate.h"
#include "definable.h"
#include "flang/Evaluate/type.h"
#include "flang/Parser/message.h"
#include "flang/Parser/parse-tree.h"
#include "flang/Semantics/expression.h"
#include "flang/Semantics/tools.h"
#include <optional>
namespace Fortran::semantics {
void DeallocateChecker::Leave(const parser::DeallocateStmt &deallocateStmt) {
bool gotStat{false}, gotMsg{false};
const SomeExpr *statVar{nullptr}, *msgVar{nullptr};
std::optional<parser::CharBlock> statSource;
std::optional<parser::CharBlock> msgSource;
for (const parser::StatOrErrmsg &deallocOpt :
std::get<std::list<parser::StatOrErrmsg>>(deallocateStmt.t)) {
common::visit(
common::visitors{
[&](const parser::StatVariable &var) {
if (gotStat) {
context_.Say(
"STAT may not be duplicated in a DEALLOCATE statement"_err_en_US);
}
gotStat = true;
statVar = GetExpr(context_, var);
statSource = parser::Unwrap<parser::Variable>(var)->GetSource();
},
[&](const parser::MsgVariable &var) {
WarnOnDeferredLengthCharacterScalar(context_,
GetExpr(context_, var),
parser::UnwrapRef<parser::Variable>(var).GetSource(),
"ERRMSG=");
if (gotMsg) {
context_.Say(
"ERRMSG may not be duplicated in a DEALLOCATE statement"_err_en_US);
}
gotMsg = true;
msgVar = GetExpr(context_, var);
msgSource = parser::Unwrap<parser::Variable>(var)->GetSource();
},
},
deallocOpt.u);
}
for (const parser::AllocateObject &allocateObject :
std::get<std::list<parser::AllocateObject>>(deallocateStmt.t)) {
parser::CharBlock source;
common::visit(
common::visitors{
[&](const parser::Name &name) {
const Symbol *symbol{
name.symbol ? &name.symbol->GetUltimate() : nullptr};
source = name.source;
if (context_.HasError(symbol)) {
// already reported an error
} else if (!IsVariableName(*symbol)) {
context_.Say(source,
"Name in DEALLOCATE statement must be a variable name"_err_en_US);
} else if (!IsAllocatableOrObjectPointer(symbol)) { // C936
context_.Say(source,
"Name in DEALLOCATE statement must have the ALLOCATABLE or POINTER attribute"_err_en_US);
} else if (auto whyNot{
WhyNotDefinable(source, context_.FindScope(source),
{DefinabilityFlag::PointerDefinition,
DefinabilityFlag::AcceptAllocatable,
DefinabilityFlag::PotentialDeallocation},
*symbol)}) {
// Catch problems with non-definability of the
// pointer/allocatable
context_
.Say(source,
"Name in DEALLOCATE statement is not definable"_err_en_US)
.Attach(std::move(
whyNot->set_severity(parser::Severity::Because)));
} else if (auto whyNot{
WhyNotDefinable(source, context_.FindScope(source),
DefinabilityFlags{}, *symbol)}) {
// Catch problems with non-definability of the dynamic object
context_
.Say(source,
"Object in DEALLOCATE statement is not deallocatable"_err_en_US)
.Attach(std::move(
whyNot->set_severity(parser::Severity::Because)));
} else {
context_.CheckIndexVarRedefine(name);
}
},
[&](const parser::StructureComponent &structureComponent) {
// Only perform structureComponent checks if it was successfully
// analyzed by expression analysis.
source = structureComponent.Component().source;
if (const auto *expr{GetExpr(context_, allocateObject)}) {
if (const Symbol *symbol{structureComponent.Component().symbol
? &structureComponent.Component()
.symbol->GetUltimate()
: nullptr};
!IsAllocatableOrObjectPointer(symbol)) { // F'2023 C936
context_.Say(source,
"Component in DEALLOCATE statement must have the ALLOCATABLE or POINTER attribute"_err_en_US);
} else if (auto whyNot{WhyNotDefinable(source,
context_.FindScope(source),
{DefinabilityFlag::PointerDefinition,
DefinabilityFlag::AcceptAllocatable,
DefinabilityFlag::PotentialDeallocation},
*expr)}) {
context_
.Say(source,
"Name in DEALLOCATE statement is not definable"_err_en_US)
.Attach(std::move(
whyNot->set_severity(parser::Severity::Because)));
} else if (auto whyNot{WhyNotDefinable(source,
context_.FindScope(source), DefinabilityFlags{},
*expr)}) {
context_
.Say(source,
"Object in DEALLOCATE statement is not deallocatable"_err_en_US)
.Attach(std::move(
whyNot->set_severity(parser::Severity::Because)));
} else if (evaluate::ExtractCoarrayRef(*expr)) { // F'2023 C955
context_.Say(source,
"Component in DEALLOCATE statement may not be coindexed"_err_en_US);
}
}
},
},
allocateObject.u);
if (const SomeExpr *allocObj{GetExpr(context_, allocateObject)}) {
if (AreSameAllocation(allocObj, statVar)) {
context_.Say(statSource.value_or(source),
"STAT variable in DEALLOCATE must not be the variable being deallocated"_err_en_US);
}
if (AreSameAllocation(allocObj, msgVar)) {
context_.Say(msgSource.value_or(source),
"ERRMSG variable in DEALLOCATE must not be the variable being deallocated"_err_en_US);
}
}
}
}
} // namespace Fortran::semantics