lib/Semantics/pointer-assignment.cpp

64ab3302SCarolineConcatto//===-- lib/Semantics/pointer-assignment.cpp ------------------------------===//
64ab3302SCarolineConcatto//
64ab3302SCarolineConcatto// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
64ab3302SCarolineConcatto// See https://llvm.org/LICENSE.txt for license information.
64ab3302SCarolineConcatto// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
64ab3302SCarolineConcatto//
64ab3302SCarolineConcatto//===----------------------------------------------------------------------===//
64ab3302SCarolineConcatto
64ab3302SCarolineConcatto#include "pointer-assignment.h"
64ab3302SCarolineConcatto#include "flang/Common/idioms.h"
64ab3302SCarolineConcatto#include "flang/Common/restorer.h"
64ab3302SCarolineConcatto#include "flang/Evaluate/characteristics.h"
64ab3302SCarolineConcatto#include "flang/Evaluate/expression.h"
64ab3302SCarolineConcatto#include "flang/Evaluate/fold.h"
64ab3302SCarolineConcatto#include "flang/Evaluate/tools.h"
64ab3302SCarolineConcatto#include "flang/Parser/message.h"
64ab3302SCarolineConcatto#include "flang/Parser/parse-tree-visitor.h"
64ab3302SCarolineConcatto#include "flang/Parser/parse-tree.h"
64ab3302SCarolineConcatto#include "flang/Semantics/expression.h"
64ab3302SCarolineConcatto#include "flang/Semantics/symbol.h"
64ab3302SCarolineConcatto#include "flang/Semantics/tools.h"
8670e499SCaroline Concatto#include "llvm/Support/raw_ostream.h"
64ab3302SCarolineConcatto#include <optional>
64ab3302SCarolineConcatto#include <set>
64ab3302SCarolineConcatto#include <string>
64ab3302SCarolineConcatto#include <type_traits>
64ab3302SCarolineConcatto
64ab3302SCarolineConcatto// Semantic checks for pointer assignment.
64ab3302SCarolineConcatto
64ab3302SCarolineConcattonamespace Fortran::semantics {
64ab3302SCarolineConcatto
64ab3302SCarolineConcattousing namespace parser::literals;
64ab3302SCarolineConcattousing evaluate::characteristics::DummyDataObject;
64ab3302SCarolineConcattousing evaluate::characteristics::FunctionResult;
64ab3302SCarolineConcattousing evaluate::characteristics::Procedure;
64ab3302SCarolineConcattousing evaluate::characteristics::TypeAndShape;
64ab3302SCarolineConcattousing parser::MessageFixedText;
64ab3302SCarolineConcattousing parser::MessageFormattedText;
64ab3302SCarolineConcatto
64ab3302SCarolineConcattoclass PointerAssignmentChecker {
64ab3302SCarolineConcattopublic:
64ab3302SCarolineConcatto  PointerAssignmentChecker(evaluate::FoldingContext &context,
64ab3302SCarolineConcatto      parser::CharBlock source, const std::string &description)
64ab3302SCarolineConcatto      : context_{context}, source_{source}, description_{description} {}
64ab3302SCarolineConcatto  PointerAssignmentChecker(evaluate::FoldingContext &context, const Symbol &lhs)
64ab3302SCarolineConcatto      : context_{context}, source_{lhs.name()},
562bfe12Speter klausler        description_{"pointer '"s + lhs.name().ToString() + '\''}, lhs_{&lhs} {
64ab3302SCarolineConcatto    set_lhsType(TypeAndShape::Characterize(lhs, context));
64ab3302SCarolineConcatto    set_isContiguous(lhs.attrs().test(Attr::CONTIGUOUS));
64ab3302SCarolineConcatto    set_isVolatile(lhs.attrs().test(Attr::VOLATILE));
562bfe12Speter klausler    if (IsProcedure(lhs)) {
562bfe12Speter klausler      procedure_ = Procedure::Characterize(lhs, context);
562bfe12Speter klausler    }
64ab3302SCarolineConcatto  }
64ab3302SCarolineConcatto  PointerAssignmentChecker &set_lhsType(std::optional<TypeAndShape> &&);
64ab3302SCarolineConcatto  PointerAssignmentChecker &set_isContiguous(bool);
64ab3302SCarolineConcatto  PointerAssignmentChecker &set_isVolatile(bool);
64ab3302SCarolineConcatto  PointerAssignmentChecker &set_isBoundsRemapping(bool);
4171f80dSpeter klausler  bool Check(const SomeExpr &);
64ab3302SCarolineConcatto
64ab3302SCarolineConcattoprivate:
4171f80dSpeter klausler  template <typename T> bool Check(const T &);
4171f80dSpeter klausler  template <typename T> bool Check(const evaluate::Expr<T> &);
4171f80dSpeter klausler  template <typename T> bool Check(const evaluate::FunctionRef<T> &);
4171f80dSpeter klausler  template <typename T> bool Check(const evaluate::Designator<T> &);
4171f80dSpeter klausler  bool Check(const evaluate::NullPointer &);
4171f80dSpeter klausler  bool Check(const evaluate::ProcedureDesignator &);
4171f80dSpeter klausler  bool Check(const evaluate::ProcedureRef &);
64ab3302SCarolineConcatto  // Target is a procedure
4171f80dSpeter klausler  bool Check(
64ab3302SCarolineConcatto      parser::CharBlock rhsName, bool isCall, const Procedure * = nullptr);
64ab3302SCarolineConcatto  bool LhsOkForUnlimitedPoly() const;
64ab3302SCarolineConcatto  template <typename... A> parser::Message *Say(A &&...);
64ab3302SCarolineConcatto
64ab3302SCarolineConcatto  evaluate::FoldingContext &context_;
64ab3302SCarolineConcatto  const parser::CharBlock source_;
64ab3302SCarolineConcatto  const std::string description_;
64ab3302SCarolineConcatto  const Symbol *lhs_{nullptr};
64ab3302SCarolineConcatto  std::optional<TypeAndShape> lhsType_;
64ab3302SCarolineConcatto  std::optional<Procedure> procedure_;
64ab3302SCarolineConcatto  bool isContiguous_{false};
64ab3302SCarolineConcatto  bool isVolatile_{false};
64ab3302SCarolineConcatto  bool isBoundsRemapping_{false};
64ab3302SCarolineConcatto};
64ab3302SCarolineConcatto
64ab3302SCarolineConcattoPointerAssignmentChecker &PointerAssignmentChecker::set_lhsType(
64ab3302SCarolineConcatto    std::optional<TypeAndShape> &&lhsType) {
64ab3302SCarolineConcatto  lhsType_ = std::move(lhsType);
64ab3302SCarolineConcatto  return *this;
64ab3302SCarolineConcatto}
64ab3302SCarolineConcatto
64ab3302SCarolineConcattoPointerAssignmentChecker &PointerAssignmentChecker::set_isContiguous(
64ab3302SCarolineConcatto    bool isContiguous) {
64ab3302SCarolineConcatto  isContiguous_ = isContiguous;
64ab3302SCarolineConcatto  return *this;
64ab3302SCarolineConcatto}
64ab3302SCarolineConcatto
64ab3302SCarolineConcattoPointerAssignmentChecker &PointerAssignmentChecker::set_isVolatile(
64ab3302SCarolineConcatto    bool isVolatile) {
64ab3302SCarolineConcatto  isVolatile_ = isVolatile;
64ab3302SCarolineConcatto  return *this;
64ab3302SCarolineConcatto}
64ab3302SCarolineConcatto
64ab3302SCarolineConcattoPointerAssignmentChecker &PointerAssignmentChecker::set_isBoundsRemapping(
64ab3302SCarolineConcatto    bool isBoundsRemapping) {
64ab3302SCarolineConcatto  isBoundsRemapping_ = isBoundsRemapping;
64ab3302SCarolineConcatto  return *this;
64ab3302SCarolineConcatto}
64ab3302SCarolineConcatto
4171f80dSpeter klauslertemplate <typename T> bool PointerAssignmentChecker::Check(const T &) {
64ab3302SCarolineConcatto  // Catch-all case for really bad target expression
64ab3302SCarolineConcatto  Say("Target associated with %s must be a designator or a call to a"
64ab3302SCarolineConcatto      " pointer-valued function"_err_en_US,
64ab3302SCarolineConcatto      description_);
4171f80dSpeter klausler  return false;
64ab3302SCarolineConcatto}
64ab3302SCarolineConcatto
64ab3302SCarolineConcattotemplate <typename T>
4171f80dSpeter klauslerbool PointerAssignmentChecker::Check(const evaluate::Expr<T> &x) {
*cd03e96fSPeter Klausler  return common::visit([&](const auto &x) { return Check(x); }, x.u);
64ab3302SCarolineConcatto}
64ab3302SCarolineConcatto
4171f80dSpeter klauslerbool PointerAssignmentChecker::Check(const SomeExpr &rhs) {
64ab3302SCarolineConcatto  if (HasVectorSubscript(rhs)) { // C1025
64ab3302SCarolineConcatto    Say("An array section with a vector subscript may not be a pointer target"_err_en_US);
4171f80dSpeter klausler    return false;
64ab3302SCarolineConcatto  } else if (ExtractCoarrayRef(rhs)) { // C1026
64ab3302SCarolineConcatto    Say("A coindexed object may not be a pointer target"_err_en_US);
4171f80dSpeter klausler    return false;
64ab3302SCarolineConcatto  } else {
*cd03e96fSPeter Klausler    return common::visit([&](const auto &x) { return Check(x); }, rhs.u);
64ab3302SCarolineConcatto  }
64ab3302SCarolineConcatto}
64ab3302SCarolineConcatto
4171f80dSpeter klauslerbool PointerAssignmentChecker::Check(const evaluate::NullPointer &) {
4171f80dSpeter klausler  return true; // P => NULL() without MOLD=; always OK
64ab3302SCarolineConcatto}
64ab3302SCarolineConcatto
64ab3302SCarolineConcattotemplate <typename T>
4171f80dSpeter klauslerbool PointerAssignmentChecker::Check(const evaluate::FunctionRef<T> &f) {
64ab3302SCarolineConcatto  std::string funcName;
64ab3302SCarolineConcatto  const auto *symbol{f.proc().GetSymbol()};
64ab3302SCarolineConcatto  if (symbol) {
64ab3302SCarolineConcatto    funcName = symbol->name().ToString();
64ab3302SCarolineConcatto  } else if (const auto *intrinsic{f.proc().GetSpecificIntrinsic()}) {
64ab3302SCarolineConcatto    funcName = intrinsic->name;
64ab3302SCarolineConcatto  }
641ede93Speter klausler  auto proc{Procedure::Characterize(f.proc(), context_)};
64ab3302SCarolineConcatto  if (!proc) {
4171f80dSpeter klausler    return false;
64ab3302SCarolineConcatto  }
64ab3302SCarolineConcatto  std::optional<MessageFixedText> msg;
64ab3302SCarolineConcatto  const auto &funcResult{proc->functionResult}; // C1025
64ab3302SCarolineConcatto  if (!funcResult) {
64ab3302SCarolineConcatto    msg = "%s is associated with the non-existent result of reference to"
64ab3302SCarolineConcatto          " procedure"_err_en_US;
64ab3302SCarolineConcatto  } else if (procedure_) {
64ab3302SCarolineConcatto    // Shouldn't be here in this function unless lhs is an object pointer.
64ab3302SCarolineConcatto    msg = "Procedure %s is associated with the result of a reference to"
64ab3302SCarolineConcatto          " function '%s' that does not return a procedure pointer"_err_en_US;
64ab3302SCarolineConcatto  } else if (funcResult->IsProcedurePointer()) {
64ab3302SCarolineConcatto    msg = "Object %s is associated with the result of a reference to"
64ab3302SCarolineConcatto          " function '%s' that is a procedure pointer"_err_en_US;
64ab3302SCarolineConcatto  } else if (!funcResult->attrs.test(FunctionResult::Attr::Pointer)) {
64ab3302SCarolineConcatto    msg = "%s is associated with the result of a reference to function '%s'"
64ab3302SCarolineConcatto          " that is a not a pointer"_err_en_US;
64ab3302SCarolineConcatto  } else if (isContiguous_ &&
64ab3302SCarolineConcatto      !funcResult->attrs.test(FunctionResult::Attr::Contiguous)) {
64ab3302SCarolineConcatto    msg = "CONTIGUOUS %s is associated with the result of reference to"
64ab3302SCarolineConcatto          " function '%s' that is not contiguous"_err_en_US;
64ab3302SCarolineConcatto  } else if (lhsType_) {
64ab3302SCarolineConcatto    const auto *frTypeAndShape{funcResult->GetTypeAndShape()};
64ab3302SCarolineConcatto    CHECK(frTypeAndShape);
d6a74ec8Speter klausler    if (!lhsType_->IsCompatibleWith(context_.messages(), *frTypeAndShape,
7763c014SPeter Klausler            "pointer", "function result",
7763c014SPeter Klausler            isBoundsRemapping_ /*omit shape check*/,
dfecbcaeSpeter klausler            evaluate::CheckConformanceFlags::BothDeferredShape)) {
bcb2591bSpeter klausler      return false; // IsCompatibleWith() emitted message
64ab3302SCarolineConcatto    }
64ab3302SCarolineConcatto  }
64ab3302SCarolineConcatto  if (msg) {
64ab3302SCarolineConcatto    auto restorer{common::ScopedSet(lhs_, symbol)};
64ab3302SCarolineConcatto    Say(*msg, description_, funcName);
4171f80dSpeter klausler    return false;
64ab3302SCarolineConcatto  }
4171f80dSpeter klausler  return true;
64ab3302SCarolineConcatto}
64ab3302SCarolineConcatto
64ab3302SCarolineConcattotemplate <typename T>
4171f80dSpeter klauslerbool PointerAssignmentChecker::Check(const evaluate::Designator<T> &d) {
64ab3302SCarolineConcatto  const Symbol *last{d.GetLastSymbol()};
64ab3302SCarolineConcatto  const Symbol *base{d.GetBaseObject().symbol()};
64ab3302SCarolineConcatto  if (!last || !base) {
64ab3302SCarolineConcatto    // P => "character literal"(1:3)
64ab3302SCarolineConcatto    context_.messages().Say("Pointer target is not a named entity"_err_en_US);
4171f80dSpeter klausler    return false;
64ab3302SCarolineConcatto  }
64ab3302SCarolineConcatto  std::optional<std::variant<MessageFixedText, MessageFormattedText>> msg;
64ab3302SCarolineConcatto  if (procedure_) {
64ab3302SCarolineConcatto    // Shouldn't be here in this function unless lhs is an object pointer.
64ab3302SCarolineConcatto    msg = "In assignment to procedure %s, the target is not a procedure or"
64ab3302SCarolineConcatto          " procedure pointer"_err_en_US;
64ab3302SCarolineConcatto  } else if (!evaluate::GetLastTarget(GetSymbolVector(d))) { // C1025
64ab3302SCarolineConcatto    msg = "In assignment to object %s, the target '%s' is not an object with"
64ab3302SCarolineConcatto          " POINTER or TARGET attributes"_err_en_US;
64ab3302SCarolineConcatto  } else if (auto rhsType{TypeAndShape::Characterize(d, context_)}) {
64ab3302SCarolineConcatto    if (!lhsType_) {
64ab3302SCarolineConcatto      msg = "%s associated with object '%s' with incompatible type or"
64ab3302SCarolineConcatto            " shape"_err_en_US;
64ab3302SCarolineConcatto    } else if (rhsType->corank() > 0 &&
64ab3302SCarolineConcatto        (isVolatile_ != last->attrs().test(Attr::VOLATILE))) { // C1020
64ab3302SCarolineConcatto      // TODO: what if A is VOLATILE in A%B%C?  need a better test here
64ab3302SCarolineConcatto      if (isVolatile_) {
64ab3302SCarolineConcatto        msg = "Pointer may not be VOLATILE when target is a"
64ab3302SCarolineConcatto              " non-VOLATILE coarray"_err_en_US;
64ab3302SCarolineConcatto      } else {
64ab3302SCarolineConcatto        msg = "Pointer must be VOLATILE when target is a"
64ab3302SCarolineConcatto              " VOLATILE coarray"_err_en_US;
64ab3302SCarolineConcatto      }
64ab3302SCarolineConcatto    } else if (rhsType->type().IsUnlimitedPolymorphic()) {
64ab3302SCarolineConcatto      if (!LhsOkForUnlimitedPoly()) {
64ab3302SCarolineConcatto        msg = "Pointer type must be unlimited polymorphic or non-extensible"
64ab3302SCarolineConcatto              " derived type when target is unlimited polymorphic"_err_en_US;
64ab3302SCarolineConcatto      }
64ab3302SCarolineConcatto    } else {
37b2e2b0Speter klausler      if (!lhsType_->type().IsTkCompatibleWith(rhsType->type())) {
64ab3302SCarolineConcatto        msg = MessageFormattedText{
64ab3302SCarolineConcatto            "Target type %s is not compatible with pointer type %s"_err_en_US,
64ab3302SCarolineConcatto            rhsType->type().AsFortran(), lhsType_->type().AsFortran()};
64ab3302SCarolineConcatto
64ab3302SCarolineConcatto      } else if (!isBoundsRemapping_) {
f862d858Speter klausler        int lhsRank{evaluate::GetRank(lhsType_->shape())};
f862d858Speter klausler        int rhsRank{evaluate::GetRank(rhsType->shape())};
64ab3302SCarolineConcatto        if (lhsRank != rhsRank) {
64ab3302SCarolineConcatto          msg = MessageFormattedText{
64ab3302SCarolineConcatto              "Pointer has rank %d but target has rank %d"_err_en_US, lhsRank,
64ab3302SCarolineConcatto              rhsRank};
64ab3302SCarolineConcatto        }
64ab3302SCarolineConcatto      }
64ab3302SCarolineConcatto    }
64ab3302SCarolineConcatto  }
64ab3302SCarolineConcatto  if (msg) {
64ab3302SCarolineConcatto    auto restorer{common::ScopedSet(lhs_, last)};
64ab3302SCarolineConcatto    if (auto *m{std::get_if<MessageFixedText>(&*msg)}) {
8670e499SCaroline Concatto      std::string buf;
8670e499SCaroline Concatto      llvm::raw_string_ostream ss{buf};
64ab3302SCarolineConcatto      d.AsFortran(ss);
64ab3302SCarolineConcatto      Say(*m, description_, ss.str());
64ab3302SCarolineConcatto    } else {
64ab3302SCarolineConcatto      Say(std::get<MessageFormattedText>(*msg));
64ab3302SCarolineConcatto    }
4171f80dSpeter klausler    return false;
64ab3302SCarolineConcatto  }
4171f80dSpeter klausler  return true;
64ab3302SCarolineConcatto}
64ab3302SCarolineConcatto
64ab3302SCarolineConcatto// Common handling for procedure pointer right-hand sides
4171f80dSpeter klauslerbool PointerAssignmentChecker::Check(
64ab3302SCarolineConcatto    parser::CharBlock rhsName, bool isCall, const Procedure *rhsProcedure) {
c7574188SPeter Steinfeld  if (std::optional<MessageFixedText> msg{
c7574188SPeter Steinfeld          evaluate::CheckProcCompatibility(isCall, procedure_, rhsProcedure)}) {
64ab3302SCarolineConcatto    Say(std::move(*msg), description_, rhsName);
4171f80dSpeter klausler    return false;
64ab3302SCarolineConcatto  }
4171f80dSpeter klausler  return true;
64ab3302SCarolineConcatto}
64ab3302SCarolineConcatto
4171f80dSpeter klauslerbool PointerAssignmentChecker::Check(const evaluate::ProcedureDesignator &d) {
641ede93Speter klausler  if (auto chars{Procedure::Characterize(d, context_)}) {
4171f80dSpeter klausler    return Check(d.GetName(), false, &*chars);
64ab3302SCarolineConcatto  } else {
4171f80dSpeter klausler    return Check(d.GetName(), false);
64ab3302SCarolineConcatto  }
64ab3302SCarolineConcatto}
64ab3302SCarolineConcatto
4171f80dSpeter klauslerbool PointerAssignmentChecker::Check(const evaluate::ProcedureRef &ref) {
64ab3302SCarolineConcatto  const Procedure *procedure{nullptr};
641ede93Speter klausler  auto chars{Procedure::Characterize(ref, context_)};
64ab3302SCarolineConcatto  if (chars) {
64ab3302SCarolineConcatto    procedure = &*chars;
64ab3302SCarolineConcatto    if (chars->functionResult) {
64ab3302SCarolineConcatto      if (const auto *proc{chars->functionResult->IsProcedurePointer()}) {
64ab3302SCarolineConcatto        procedure = proc;
64ab3302SCarolineConcatto      }
64ab3302SCarolineConcatto    }
64ab3302SCarolineConcatto  }
4171f80dSpeter klausler  return Check(ref.proc().GetName(), true, procedure);
64ab3302SCarolineConcatto}
64ab3302SCarolineConcatto
64ab3302SCarolineConcatto// The target can be unlimited polymorphic if the pointer is, or if it is
64ab3302SCarolineConcatto// a non-extensible derived type.
64ab3302SCarolineConcattobool PointerAssignmentChecker::LhsOkForUnlimitedPoly() const {
64ab3302SCarolineConcatto  const auto &type{lhsType_->type()};
64ab3302SCarolineConcatto  if (type.category() != TypeCategory::Derived || type.IsAssumedType()) {
64ab3302SCarolineConcatto    return false;
64ab3302SCarolineConcatto  } else if (type.IsUnlimitedPolymorphic()) {
64ab3302SCarolineConcatto    return true;
64ab3302SCarolineConcatto  } else {
64ab3302SCarolineConcatto    return !IsExtensibleType(&type.GetDerivedTypeSpec());
64ab3302SCarolineConcatto  }
64ab3302SCarolineConcatto}
64ab3302SCarolineConcatto
64ab3302SCarolineConcattotemplate <typename... A>
64ab3302SCarolineConcattoparser::Message *PointerAssignmentChecker::Say(A &&...x) {
64ab3302SCarolineConcatto  auto *msg{context_.messages().Say(std::forward<A>(x)...)};
641ede93Speter klausler  if (msg) {
64ab3302SCarolineConcatto    if (lhs_) {
64ab3302SCarolineConcatto      return evaluate::AttachDeclaration(msg, *lhs_);
641ede93Speter klausler    }
641ede93Speter klausler    if (!source_.empty()) {
64ab3302SCarolineConcatto      msg->Attach(source_, "Declaration of %s"_en_US, description_);
64ab3302SCarolineConcatto    }
641ede93Speter klausler  }
64ab3302SCarolineConcatto  return msg;
64ab3302SCarolineConcatto}
64ab3302SCarolineConcatto
64ab3302SCarolineConcatto// Verify that any bounds on the LHS of a pointer assignment are valid.
64ab3302SCarolineConcatto// Return true if it is a bound-remapping so we can perform further checks.
64ab3302SCarolineConcattostatic bool CheckPointerBounds(
64ab3302SCarolineConcatto    evaluate::FoldingContext &context, const evaluate::Assignment &assignment) {
64ab3302SCarolineConcatto  auto &messages{context.messages()};
64ab3302SCarolineConcatto  const SomeExpr &lhs{assignment.lhs};
64ab3302SCarolineConcatto  const SomeExpr &rhs{assignment.rhs};
64ab3302SCarolineConcatto  bool isBoundsRemapping{false};
*cd03e96fSPeter Klausler  std::size_t numBounds{common::visit(
64ab3302SCarolineConcatto      common::visitors{
64ab3302SCarolineConcatto          [&](const evaluate::Assignment::BoundsSpec &bounds) {
64ab3302SCarolineConcatto            return bounds.size();
64ab3302SCarolineConcatto          },
64ab3302SCarolineConcatto          [&](const evaluate::Assignment::BoundsRemapping &bounds) {
64ab3302SCarolineConcatto            isBoundsRemapping = true;
64ab3302SCarolineConcatto            evaluate::ExtentExpr lhsSizeExpr{1};
64ab3302SCarolineConcatto            for (const auto &bound : bounds) {
64ab3302SCarolineConcatto              lhsSizeExpr = std::move(lhsSizeExpr) *
64ab3302SCarolineConcatto                  (common::Clone(bound.second) - common::Clone(bound.first) +
64ab3302SCarolineConcatto                      evaluate::ExtentExpr{1});
64ab3302SCarolineConcatto            }
64ab3302SCarolineConcatto            if (std::optional<std::int64_t> lhsSize{evaluate::ToInt64(
64ab3302SCarolineConcatto                    evaluate::Fold(context, std::move(lhsSizeExpr)))}) {
64ab3302SCarolineConcatto              if (auto shape{evaluate::GetShape(context, rhs)}) {
64ab3302SCarolineConcatto                if (std::optional<std::int64_t> rhsSize{
64ab3302SCarolineConcatto                        evaluate::ToInt64(evaluate::Fold(
64ab3302SCarolineConcatto                            context, evaluate::GetSize(std::move(*shape))))}) {
64ab3302SCarolineConcatto                  if (*lhsSize > *rhsSize) {
64ab3302SCarolineConcatto                    messages.Say(
64ab3302SCarolineConcatto                        "Pointer bounds require %d elements but target has"
64ab3302SCarolineConcatto                        " only %d"_err_en_US,
64ab3302SCarolineConcatto                        *lhsSize, *rhsSize); // 10.2.2.3(9)
64ab3302SCarolineConcatto                  }
64ab3302SCarolineConcatto                }
64ab3302SCarolineConcatto              }
64ab3302SCarolineConcatto            }
64ab3302SCarolineConcatto            return bounds.size();
64ab3302SCarolineConcatto          },
64ab3302SCarolineConcatto          [](const auto &) -> std::size_t {
64ab3302SCarolineConcatto            DIE("not valid for pointer assignment");
64ab3302SCarolineConcatto          },
64ab3302SCarolineConcatto      },
64ab3302SCarolineConcatto      assignment.u)};
64ab3302SCarolineConcatto  if (numBounds > 0) {
64ab3302SCarolineConcatto    if (lhs.Rank() != static_cast<int>(numBounds)) {
64ab3302SCarolineConcatto      messages.Say("Pointer '%s' has rank %d but the number of bounds specified"
64ab3302SCarolineConcatto                   " is %d"_err_en_US,
64ab3302SCarolineConcatto          lhs.AsFortran(), lhs.Rank(), numBounds); // C1018
64ab3302SCarolineConcatto    }
64ab3302SCarolineConcatto  }
64ab3302SCarolineConcatto  if (isBoundsRemapping && rhs.Rank() != 1 &&
641ede93Speter klausler      !evaluate::IsSimplyContiguous(rhs, context)) {
64ab3302SCarolineConcatto    messages.Say("Pointer bounds remapping target must have rank 1 or be"
64ab3302SCarolineConcatto                 " simply contiguous"_err_en_US); // 10.2.2.3(9)
64ab3302SCarolineConcatto  }
64ab3302SCarolineConcatto  return isBoundsRemapping;
64ab3302SCarolineConcatto}
64ab3302SCarolineConcatto
4171f80dSpeter klauslerbool CheckPointerAssignment(
64ab3302SCarolineConcatto    evaluate::FoldingContext &context, const evaluate::Assignment &assignment) {
4171f80dSpeter klausler  return CheckPointerAssignment(context, assignment.lhs, assignment.rhs,
4171f80dSpeter klausler      CheckPointerBounds(context, assignment));
4171f80dSpeter klausler}
4171f80dSpeter klausler
4171f80dSpeter klauslerbool CheckPointerAssignment(evaluate::FoldingContext &context,
4171f80dSpeter klausler    const SomeExpr &lhs, const SomeExpr &rhs, bool isBoundsRemapping) {
64ab3302SCarolineConcatto  const Symbol *pointer{GetLastSymbol(lhs)};
64ab3302SCarolineConcatto  if (!pointer) {
4171f80dSpeter klausler    return false; // error was reported
64ab3302SCarolineConcatto  }
48dc5c8eSKiran Chandramohan  if (!IsPointer(pointer->GetUltimate())) {
64ab3302SCarolineConcatto    evaluate::SayWithDeclaration(context.messages(), *pointer,
64ab3302SCarolineConcatto        "'%s' is not a pointer"_err_en_US, pointer->name());
4171f80dSpeter klausler    return false;
64ab3302SCarolineConcatto  }
64ab3302SCarolineConcatto  if (pointer->has<ProcEntityDetails>() && evaluate::ExtractCoarrayRef(lhs)) {
64ab3302SCarolineConcatto    context.messages().Say( // C1027
64ab3302SCarolineConcatto        "Procedure pointer may not be a coindexed object"_err_en_US);
4171f80dSpeter klausler    return false;
64ab3302SCarolineConcatto  }
4171f80dSpeter klausler  return PointerAssignmentChecker{context, *pointer}
64ab3302SCarolineConcatto      .set_isBoundsRemapping(isBoundsRemapping)
64ab3302SCarolineConcatto      .Check(rhs);
64ab3302SCarolineConcatto}
64ab3302SCarolineConcatto
4171f80dSpeter klauslerbool CheckPointerAssignment(
64ab3302SCarolineConcatto    evaluate::FoldingContext &context, const Symbol &lhs, const SomeExpr &rhs) {
64ab3302SCarolineConcatto  CHECK(IsPointer(lhs));
4171f80dSpeter klausler  return PointerAssignmentChecker{context, lhs}.Check(rhs);
64ab3302SCarolineConcatto}
64ab3302SCarolineConcatto
4171f80dSpeter klauslerbool CheckPointerAssignment(evaluate::FoldingContext &context,
64ab3302SCarolineConcatto    parser::CharBlock source, const std::string &description,
64ab3302SCarolineConcatto    const DummyDataObject &lhs, const SomeExpr &rhs) {
4171f80dSpeter klausler  return PointerAssignmentChecker{context, source, description}
64ab3302SCarolineConcatto      .set_lhsType(common::Clone(lhs.type))
64ab3302SCarolineConcatto      .set_isContiguous(lhs.attrs.test(DummyDataObject::Attr::Contiguous))
64ab3302SCarolineConcatto      .set_isVolatile(lhs.attrs.test(DummyDataObject::Attr::Volatile))
64ab3302SCarolineConcatto      .Check(rhs);
64ab3302SCarolineConcatto}
64ab3302SCarolineConcatto
4171f80dSpeter klauslerbool CheckInitialTarget(evaluate::FoldingContext &context,
4171f80dSpeter klausler    const SomeExpr &pointer, const SomeExpr &init) {
4171f80dSpeter klausler  return evaluate::IsInitialDataTarget(init, &context.messages()) &&
4171f80dSpeter klausler      CheckPointerAssignment(context, pointer, init);
4171f80dSpeter klausler}
4171f80dSpeter klausler
1f879005STim Keith} // namespace Fortran::semantics