forked from OSchip/llvm-project
219 lines
7.1 KiB
C++
219 lines
7.1 KiB
C++
//===-- lib/Evaluate/call.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/Evaluate/call.h"
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#include "flang/Common/idioms.h"
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#include "flang/Evaluate/characteristics.h"
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#include "flang/Evaluate/expression.h"
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#include "flang/Evaluate/tools.h"
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#include "flang/Semantics/symbol.h"
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namespace Fortran::evaluate {
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DEFINE_DEFAULT_CONSTRUCTORS_AND_ASSIGNMENTS(ActualArgument)
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ActualArgument::ActualArgument(Expr<SomeType> &&x) : u_{std::move(x)} {}
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ActualArgument::ActualArgument(common::CopyableIndirection<Expr<SomeType>> &&v)
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: u_{std::move(v)} {}
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ActualArgument::ActualArgument(AssumedType x) : u_{x} {}
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ActualArgument::~ActualArgument() {}
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ActualArgument::AssumedType::AssumedType(const Symbol &symbol)
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: symbol_{symbol} {
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const semantics::DeclTypeSpec *type{symbol.GetType()};
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CHECK(type && type->category() == semantics::DeclTypeSpec::TypeStar);
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}
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int ActualArgument::AssumedType::Rank() const { return symbol_->Rank(); }
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ActualArgument &ActualArgument::operator=(Expr<SomeType> &&expr) {
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u_ = std::move(expr);
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return *this;
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}
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std::optional<DynamicType> ActualArgument::GetType() const {
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if (const Expr<SomeType> *expr{UnwrapExpr()}) {
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return expr->GetType();
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} else if (std::holds_alternative<AssumedType>(u_)) {
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return DynamicType::AssumedType();
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} else {
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return std::nullopt;
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}
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}
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int ActualArgument::Rank() const {
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if (const Expr<SomeType> *expr{UnwrapExpr()}) {
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return expr->Rank();
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} else {
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return std::get<AssumedType>(u_).Rank();
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}
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}
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bool ActualArgument::operator==(const ActualArgument &that) const {
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return keyword_ == that.keyword_ &&
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isAlternateReturn_ == that.isAlternateReturn_ &&
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isPassedObject_ == that.isPassedObject_ && u_ == that.u_;
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}
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void ActualArgument::Parenthesize() {
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u_ = evaluate::Parenthesize(std::move(DEREF(UnwrapExpr())));
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}
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SpecificIntrinsic::SpecificIntrinsic(
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IntrinsicProcedure n, characteristics::Procedure &&chars)
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: name{n}, characteristics{
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new characteristics::Procedure{std::move(chars)}} {}
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DEFINE_DEFAULT_CONSTRUCTORS_AND_ASSIGNMENTS(SpecificIntrinsic)
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SpecificIntrinsic::~SpecificIntrinsic() {}
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bool SpecificIntrinsic::operator==(const SpecificIntrinsic &that) const {
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return name == that.name && characteristics == that.characteristics;
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}
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ProcedureDesignator::ProcedureDesignator(Component &&c)
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: u{common::CopyableIndirection<Component>::Make(std::move(c))} {}
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bool ProcedureDesignator::operator==(const ProcedureDesignator &that) const {
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return u == that.u;
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}
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std::optional<DynamicType> ProcedureDesignator::GetType() const {
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if (const auto *intrinsic{std::get_if<SpecificIntrinsic>(&u)}) {
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if (const auto &result{intrinsic->characteristics.value().functionResult}) {
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if (const auto *typeAndShape{result->GetTypeAndShape()}) {
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return typeAndShape->type();
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}
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}
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} else {
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return DynamicType::From(GetSymbol());
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}
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return std::nullopt;
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}
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int ProcedureDesignator::Rank() const {
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if (const Symbol * symbol{GetSymbol()}) {
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// Subtle: will be zero for functions returning procedure pointers
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return symbol->Rank();
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}
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if (const auto *intrinsic{std::get_if<SpecificIntrinsic>(&u)}) {
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if (const auto &result{intrinsic->characteristics.value().functionResult}) {
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if (const auto *typeAndShape{result->GetTypeAndShape()}) {
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CHECK(!typeAndShape->attrs().test(
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characteristics::TypeAndShape::Attr::AssumedRank));
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return typeAndShape->Rank();
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}
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// Otherwise, intrinsic returns a procedure pointer (e.g. NULL(MOLD=pptr))
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}
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}
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return 0;
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}
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const Symbol *ProcedureDesignator::GetInterfaceSymbol() const {
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if (const Symbol * symbol{GetSymbol()}) {
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if (const auto *details{
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symbol->detailsIf<semantics::ProcEntityDetails>()}) {
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return details->interface().symbol();
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}
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}
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return nullptr;
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}
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bool ProcedureDesignator::IsElemental() const {
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if (const Symbol * interface{GetInterfaceSymbol()}) {
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return interface->attrs().test(semantics::Attr::ELEMENTAL);
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} else if (const Symbol * symbol{GetSymbol()}) {
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return symbol->attrs().test(semantics::Attr::ELEMENTAL);
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} else if (const auto *intrinsic{std::get_if<SpecificIntrinsic>(&u)}) {
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return intrinsic->characteristics.value().attrs.test(
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characteristics::Procedure::Attr::Elemental);
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} else {
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DIE("ProcedureDesignator::IsElemental(): no case");
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}
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return false;
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}
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const SpecificIntrinsic *ProcedureDesignator::GetSpecificIntrinsic() const {
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return std::get_if<SpecificIntrinsic>(&u);
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}
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const Component *ProcedureDesignator::GetComponent() const {
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if (auto *c{std::get_if<common::CopyableIndirection<Component>>(&u)}) {
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return &c->value();
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} else {
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return nullptr;
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}
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}
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const Symbol *ProcedureDesignator::GetSymbol() const {
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return std::visit(common::visitors{
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[](SymbolRef symbol) { return &*symbol; },
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[](const common::CopyableIndirection<Component> &c) {
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return &c.value().GetLastSymbol();
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},
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[](const auto &) -> const Symbol * { return nullptr; },
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},
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u);
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}
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std::string ProcedureDesignator::GetName() const {
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return std::visit(
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common::visitors{
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[](const SpecificIntrinsic &i) { return i.name; },
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[](const Symbol &symbol) { return symbol.name().ToString(); },
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[](const common::CopyableIndirection<Component> &c) {
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return c.value().GetLastSymbol().name().ToString();
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},
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},
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u);
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}
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std::optional<Expr<SubscriptInteger>> ProcedureRef::LEN() const {
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if (const auto *intrinsic{std::get_if<SpecificIntrinsic>(&proc_.u)}) {
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if (intrinsic->name == "repeat") {
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// LEN(REPEAT(ch,n)) == LEN(ch) * n
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CHECK(arguments_.size() == 2);
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const auto *stringArg{
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UnwrapExpr<Expr<SomeCharacter>>(arguments_[0].value())};
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const auto *nCopiesArg{
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UnwrapExpr<Expr<SomeInteger>>(arguments_[1].value())};
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CHECK(stringArg && nCopiesArg);
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if (auto stringLen{stringArg->LEN()}) {
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auto converted{ConvertTo(*stringLen, common::Clone(*nCopiesArg))};
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return *std::move(stringLen) * std::move(converted);
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}
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}
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// Some other cases (e.g., LEN(CHAR(...))) are handled in
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// ProcedureDesignator::LEN() because they're independent of the
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// lengths of the actual arguments.
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}
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return proc_.LEN();
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}
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int ProcedureRef::Rank() const {
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if (IsElemental()) {
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for (const auto &arg : arguments_) {
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if (arg) {
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if (int rank{arg->Rank()}; rank > 0) {
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return rank;
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}
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}
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}
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return 0;
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} else {
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return proc_.Rank();
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}
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}
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ProcedureRef::~ProcedureRef() {}
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void ProcedureRef::Deleter(ProcedureRef *p) { delete p; }
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FOR_EACH_SPECIFIC_TYPE(template class FunctionRef, )
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} // namespace Fortran::evaluate
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