forked from OSchip/llvm-project
416 lines
12 KiB
C++
416 lines
12 KiB
C++
//===-- lib/Semantics/scope.cpp -------------------------------------------===//
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//
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// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
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// See https://llvm.org/LICENSE.txt for license information.
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// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
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//
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//===----------------------------------------------------------------------===//
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#include "flang/Semantics/scope.h"
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#include "flang/Parser/characters.h"
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#include "flang/Semantics/symbol.h"
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#include "flang/Semantics/type.h"
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#include "llvm/Support/raw_ostream.h"
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#include <algorithm>
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#include <memory>
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namespace Fortran::semantics {
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Symbols<1024> Scope::allSymbols;
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bool EquivalenceObject::operator==(const EquivalenceObject &that) const {
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return symbol == that.symbol && subscripts == that.subscripts &&
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substringStart == that.substringStart;
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}
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bool EquivalenceObject::operator<(const EquivalenceObject &that) const {
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return &symbol < &that.symbol ||
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(&symbol == &that.symbol &&
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(subscripts < that.subscripts ||
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(subscripts == that.subscripts &&
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substringStart < that.substringStart)));
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}
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std::string EquivalenceObject::AsFortran() const {
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std::string buf;
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llvm::raw_string_ostream ss{buf};
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ss << symbol.name().ToString();
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if (!subscripts.empty()) {
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char sep{'('};
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for (auto subscript : subscripts) {
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ss << sep << subscript;
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sep = ',';
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}
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ss << ')';
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}
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if (substringStart) {
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ss << '(' << *substringStart << ":)";
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}
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return ss.str();
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}
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Scope &Scope::MakeScope(Kind kind, Symbol *symbol) {
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return children_.emplace_back(*this, kind, symbol, context_);
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}
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template <typename T>
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static std::vector<common::Reference<T>> GetSortedSymbols(
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std::map<SourceName, MutableSymbolRef> symbols) {
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std::vector<common::Reference<T>> result;
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result.reserve(symbols.size());
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for (auto &pair : symbols) {
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result.push_back(*pair.second);
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}
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std::sort(result.begin(), result.end(), SymbolSourcePositionCompare{});
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return result;
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}
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MutableSymbolVector Scope::GetSymbols() {
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return GetSortedSymbols<Symbol>(symbols_);
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}
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SymbolVector Scope::GetSymbols() const {
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return GetSortedSymbols<const Symbol>(symbols_);
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}
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Scope::iterator Scope::find(const SourceName &name) {
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return symbols_.find(name);
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}
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Scope::size_type Scope::erase(const SourceName &name) {
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auto it{symbols_.find(name)};
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if (it != end()) {
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symbols_.erase(it);
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return 1;
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} else {
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return 0;
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}
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}
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Symbol *Scope::FindSymbol(const SourceName &name) const {
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auto it{find(name)};
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if (it != end()) {
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return &*it->second;
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} else if (CanImport(name)) {
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return parent_.FindSymbol(name);
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} else {
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return nullptr;
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}
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}
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Symbol *Scope::FindComponent(SourceName name) const {
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CHECK(IsDerivedType());
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auto found{find(name)};
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if (found != end()) {
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return &*found->second;
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} else if (const Scope * parent{GetDerivedTypeParent()}) {
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return parent->FindComponent(name);
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} else {
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return nullptr;
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}
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}
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bool Scope::Contains(const Scope &that) const {
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for (const Scope *scope{&that};; scope = &scope->parent()) {
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if (*scope == *this) {
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return true;
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}
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if (scope->IsGlobal()) {
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return false;
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}
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}
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}
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Symbol *Scope::CopySymbol(const Symbol &symbol) {
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auto pair{try_emplace(symbol.name(), symbol.attrs())};
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if (!pair.second) {
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return nullptr; // already exists
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} else {
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Symbol &result{*pair.first->second};
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result.flags() = symbol.flags();
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result.set_details(common::Clone(symbol.details()));
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return &result;
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}
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}
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void Scope::add_equivalenceSet(EquivalenceSet &&set) {
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equivalenceSets_.emplace_back(std::move(set));
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}
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void Scope::add_crayPointer(const SourceName &name, Symbol &pointer) {
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CHECK(pointer.test(Symbol::Flag::CrayPointer));
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crayPointers_.emplace(name, pointer);
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}
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Symbol &Scope::MakeCommonBlock(const SourceName &name) {
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const auto it{commonBlocks_.find(name)};
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if (it != commonBlocks_.end()) {
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return *it->second;
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} else {
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Symbol &symbol{MakeSymbol(name, Attrs{}, CommonBlockDetails{})};
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commonBlocks_.emplace(name, symbol);
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return symbol;
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}
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}
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Symbol *Scope::FindCommonBlock(const SourceName &name) const {
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const auto it{commonBlocks_.find(name)};
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return it != commonBlocks_.end() ? &*it->second : nullptr;
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}
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Scope *Scope::FindSubmodule(const SourceName &name) const {
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auto it{submodules_.find(name)};
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if (it == submodules_.end()) {
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return nullptr;
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} else {
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return &*it->second;
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}
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}
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bool Scope::AddSubmodule(const SourceName &name, Scope &submodule) {
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return submodules_.emplace(name, submodule).second;
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}
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const DeclTypeSpec *Scope::FindType(const DeclTypeSpec &type) const {
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auto it{std::find(declTypeSpecs_.begin(), declTypeSpecs_.end(), type)};
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return it != declTypeSpecs_.end() ? &*it : nullptr;
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}
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const DeclTypeSpec &Scope::MakeNumericType(
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TypeCategory category, KindExpr &&kind) {
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return MakeLengthlessType(NumericTypeSpec{category, std::move(kind)});
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}
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const DeclTypeSpec &Scope::MakeLogicalType(KindExpr &&kind) {
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return MakeLengthlessType(LogicalTypeSpec{std::move(kind)});
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}
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const DeclTypeSpec &Scope::MakeTypeStarType() {
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return MakeLengthlessType(DeclTypeSpec{DeclTypeSpec::TypeStar});
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}
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const DeclTypeSpec &Scope::MakeClassStarType() {
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return MakeLengthlessType(DeclTypeSpec{DeclTypeSpec::ClassStar});
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}
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// Types that can't have length parameters can be reused without having to
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// compare length expressions. They are stored in the global scope.
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const DeclTypeSpec &Scope::MakeLengthlessType(DeclTypeSpec &&type) {
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const auto *found{FindType(type)};
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return found ? *found : declTypeSpecs_.emplace_back(std::move(type));
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}
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const DeclTypeSpec &Scope::MakeCharacterType(
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ParamValue &&length, KindExpr &&kind) {
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return declTypeSpecs_.emplace_back(
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CharacterTypeSpec{std::move(length), std::move(kind)});
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}
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DeclTypeSpec &Scope::MakeDerivedType(
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DeclTypeSpec::Category category, DerivedTypeSpec &&spec) {
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return declTypeSpecs_.emplace_back(category, std::move(spec));
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}
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const DeclTypeSpec *Scope::GetType(const SomeExpr &expr) {
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if (auto dyType{expr.GetType()}) {
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if (dyType->IsAssumedType()) {
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return &MakeTypeStarType();
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} else if (dyType->IsUnlimitedPolymorphic()) {
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return &MakeClassStarType();
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} else {
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switch (dyType->category()) {
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case TypeCategory::Integer:
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case TypeCategory::Real:
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case TypeCategory::Complex:
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return &MakeNumericType(dyType->category(), KindExpr{dyType->kind()});
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case TypeCategory::Character:
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if (const ParamValue * lenParam{dyType->charLengthParamValue()}) {
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return &MakeCharacterType(
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ParamValue{*lenParam}, KindExpr{dyType->kind()});
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} else {
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auto lenExpr{dyType->GetCharLength()};
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if (!lenExpr) {
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lenExpr =
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std::get<evaluate::Expr<evaluate::SomeCharacter>>(expr.u).LEN();
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}
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if (lenExpr) {
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return &MakeCharacterType(
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ParamValue{SomeIntExpr{std::move(*lenExpr)},
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common::TypeParamAttr::Len},
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KindExpr{dyType->kind()});
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}
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}
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break;
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case TypeCategory::Logical:
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return &MakeLogicalType(KindExpr{dyType->kind()});
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case TypeCategory::Derived:
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return &MakeDerivedType(dyType->IsPolymorphic()
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? DeclTypeSpec::ClassDerived
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: DeclTypeSpec::TypeDerived,
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DerivedTypeSpec{dyType->GetDerivedTypeSpec()});
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}
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}
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}
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return nullptr;
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}
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Scope::ImportKind Scope::GetImportKind() const {
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if (importKind_) {
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return *importKind_;
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}
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if (symbol_ && !symbol_->attrs().test(Attr::MODULE)) {
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if (auto *details{symbol_->detailsIf<SubprogramDetails>()}) {
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if (details->isInterface()) {
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return ImportKind::None; // default for non-mod-proc interface body
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}
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}
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}
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return ImportKind::Default;
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}
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std::optional<parser::MessageFixedText> Scope::SetImportKind(ImportKind kind) {
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if (!importKind_) {
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importKind_ = kind;
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return std::nullopt;
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}
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bool hasNone{kind == ImportKind::None || *importKind_ == ImportKind::None};
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bool hasAll{kind == ImportKind::All || *importKind_ == ImportKind::All};
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// Check C8100 and C898: constraints on multiple IMPORT statements
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if (hasNone || hasAll) {
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return hasNone
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? "IMPORT,NONE must be the only IMPORT statement in a scope"_err_en_US
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: "IMPORT,ALL must be the only IMPORT statement in a scope"_err_en_US;
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} else if (kind != *importKind_ &&
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(kind != ImportKind::Only || kind != ImportKind::Only)) {
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return "Every IMPORT must have ONLY specifier if one of them does"_err_en_US;
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} else {
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return std::nullopt;
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}
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}
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void Scope::add_importName(const SourceName &name) {
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importNames_.insert(name);
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}
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// true if name can be imported or host-associated from parent scope.
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bool Scope::CanImport(const SourceName &name) const {
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if (IsGlobal() || parent_.IsGlobal()) {
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return false;
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}
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switch (GetImportKind()) {
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SWITCH_COVERS_ALL_CASES
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case ImportKind::None:
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return false;
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case ImportKind::All:
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case ImportKind::Default:
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return true;
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case ImportKind::Only:
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return importNames_.count(name) > 0;
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}
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}
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const Scope *Scope::FindScope(parser::CharBlock source) const {
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return const_cast<Scope *>(this)->FindScope(source);
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}
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Scope *Scope::FindScope(parser::CharBlock source) {
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bool isContained{sourceRange_.Contains(source)};
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if (!isContained && !IsGlobal() && !IsModuleFile()) {
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return nullptr;
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}
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for (auto &child : children_) {
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if (auto *scope{child.FindScope(source)}) {
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return scope;
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}
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}
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return isContained ? this : nullptr;
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}
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void Scope::AddSourceRange(const parser::CharBlock &source) {
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for (auto *scope{this}; !scope->IsGlobal(); scope = &scope->parent()) {
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scope->sourceRange_.ExtendToCover(source);
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}
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}
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llvm::raw_ostream &operator<<(llvm::raw_ostream &os, const Scope &scope) {
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os << Scope::EnumToString(scope.kind()) << " scope: ";
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if (auto *symbol{scope.symbol()}) {
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os << *symbol << ' ';
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}
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if (scope.derivedTypeSpec_) {
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os << "instantiation of " << *scope.derivedTypeSpec_ << ' ';
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}
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os << scope.children_.size() << " children\n";
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for (const auto &pair : scope.symbols_) {
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const Symbol &symbol{*pair.second};
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os << " " << symbol << '\n';
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}
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if (!scope.equivalenceSets_.empty()) {
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os << " Equivalence Sets:\n";
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for (const auto &set : scope.equivalenceSets_) {
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os << " ";
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for (const auto &object : set) {
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os << ' ' << object.AsFortran();
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}
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os << '\n';
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}
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}
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for (const auto &pair : scope.commonBlocks_) {
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const Symbol &symbol{*pair.second};
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os << " " << symbol << '\n';
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}
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return os;
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}
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bool Scope::IsStmtFunction() const {
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return symbol_ && symbol_->test(Symbol::Flag::StmtFunction);
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}
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bool Scope::IsParameterizedDerivedType() const {
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if (!IsDerivedType()) {
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return false;
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}
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if (const Scope * parent{GetDerivedTypeParent()}) {
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if (parent->IsParameterizedDerivedType()) {
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return true;
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}
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}
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for (const auto &pair : symbols_) {
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if (pair.second->has<TypeParamDetails>()) {
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return true;
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}
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}
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return false;
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}
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const DeclTypeSpec *Scope::FindInstantiatedDerivedType(
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const DerivedTypeSpec &spec, DeclTypeSpec::Category category) const {
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DeclTypeSpec type{category, spec};
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if (const auto *result{FindType(type)}) {
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return result;
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} else if (IsGlobal()) {
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return nullptr;
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} else {
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return parent().FindInstantiatedDerivedType(spec, category);
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}
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}
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const Scope *Scope::GetDerivedTypeParent() const {
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if (const Symbol * symbol{GetSymbol()}) {
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if (const DerivedTypeSpec * parent{symbol->GetParentTypeSpec(this)}) {
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return parent->scope();
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}
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}
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return nullptr;
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}
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const Scope &Scope::GetDerivedTypeBase() const {
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const Scope *child{this};
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for (const Scope *parent{GetDerivedTypeParent()}; parent != nullptr;
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parent = child->GetDerivedTypeParent()) {
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child = parent;
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}
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return *child;
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}
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void Scope::InstantiateDerivedTypes() {
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for (DeclTypeSpec &type : declTypeSpecs_) {
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if (type.category() == DeclTypeSpec::TypeDerived ||
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type.category() == DeclTypeSpec::ClassDerived) {
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type.derivedTypeSpec().Instantiate(*this);
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}
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}
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}
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} // namespace Fortran::semantics
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