164ab3302SCarolineConcatto //===-- lib/Semantics/tools.cpp -------------------------------------------===//
264ab3302SCarolineConcatto //
364ab3302SCarolineConcatto // Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
464ab3302SCarolineConcatto // See https://llvm.org/LICENSE.txt for license information.
564ab3302SCarolineConcatto // SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
664ab3302SCarolineConcatto //
764ab3302SCarolineConcatto //===----------------------------------------------------------------------===//
864ab3302SCarolineConcatto
964ab3302SCarolineConcatto #include "flang/Parser/tools.h"
1064ab3302SCarolineConcatto #include "flang/Common/Fortran.h"
1164ab3302SCarolineConcatto #include "flang/Common/indirection.h"
1264ab3302SCarolineConcatto #include "flang/Parser/dump-parse-tree.h"
1364ab3302SCarolineConcatto #include "flang/Parser/message.h"
1464ab3302SCarolineConcatto #include "flang/Parser/parse-tree.h"
1564ab3302SCarolineConcatto #include "flang/Semantics/scope.h"
1664ab3302SCarolineConcatto #include "flang/Semantics/semantics.h"
1764ab3302SCarolineConcatto #include "flang/Semantics/symbol.h"
1864ab3302SCarolineConcatto #include "flang/Semantics/tools.h"
1964ab3302SCarolineConcatto #include "flang/Semantics/type.h"
208670e499SCaroline Concatto #include "llvm/Support/raw_ostream.h"
2164ab3302SCarolineConcatto #include <algorithm>
2264ab3302SCarolineConcatto #include <set>
2364ab3302SCarolineConcatto #include <variant>
2464ab3302SCarolineConcatto
2564ab3302SCarolineConcatto namespace Fortran::semantics {
2664ab3302SCarolineConcatto
2747452b96STim Keith // Find this or containing scope that matches predicate
FindScopeContaining(const Scope & start,std::function<bool (const Scope &)> predicate)2847452b96STim Keith static const Scope *FindScopeContaining(
2947452b96STim Keith const Scope &start, std::function<bool(const Scope &)> predicate) {
3047452b96STim Keith for (const Scope *scope{&start};; scope = &scope->parent()) {
3147452b96STim Keith if (predicate(*scope)) {
3247452b96STim Keith return scope;
3347452b96STim Keith }
3452a1346bSPeter Klausler if (scope->IsTopLevel()) {
3547452b96STim Keith return nullptr;
3647452b96STim Keith }
3747452b96STim Keith }
3847452b96STim Keith }
3947452b96STim Keith
GetTopLevelUnitContaining(const Scope & start)401f525eceSTim Keith const Scope &GetTopLevelUnitContaining(const Scope &start) {
4152a1346bSPeter Klausler CHECK(!start.IsTopLevel());
421f525eceSTim Keith return DEREF(FindScopeContaining(
4352a1346bSPeter Klausler start, [](const Scope &scope) { return scope.parent().IsTopLevel(); }));
441f525eceSTim Keith }
451f525eceSTim Keith
GetTopLevelUnitContaining(const Symbol & symbol)461f525eceSTim Keith const Scope &GetTopLevelUnitContaining(const Symbol &symbol) {
471f525eceSTim Keith return GetTopLevelUnitContaining(symbol.owner());
481f525eceSTim Keith }
491f525eceSTim Keith
FindModuleContaining(const Scope & start)5047452b96STim Keith const Scope *FindModuleContaining(const Scope &start) {
5147452b96STim Keith return FindScopeContaining(
5247452b96STim Keith start, [](const Scope &scope) { return scope.IsModule(); });
5347452b96STim Keith }
5447452b96STim Keith
FindModuleFileContaining(const Scope & start)551bd083b5Speter klausler const Scope *FindModuleFileContaining(const Scope &start) {
561bd083b5Speter klausler return FindScopeContaining(
571bd083b5Speter klausler start, [](const Scope &scope) { return scope.IsModuleFile(); });
581bd083b5Speter klausler }
591bd083b5Speter klausler
GetProgramUnitContaining(const Scope & start)601f525eceSTim Keith const Scope &GetProgramUnitContaining(const Scope &start) {
6152a1346bSPeter Klausler CHECK(!start.IsTopLevel());
621f525eceSTim Keith return DEREF(FindScopeContaining(start, [](const Scope &scope) {
6347452b96STim Keith switch (scope.kind()) {
6464ab3302SCarolineConcatto case Scope::Kind::Module:
6564ab3302SCarolineConcatto case Scope::Kind::MainProgram:
6664ab3302SCarolineConcatto case Scope::Kind::Subprogram:
6784a099dfSpeter klausler case Scope::Kind::BlockData:
6884a099dfSpeter klausler return true;
6984a099dfSpeter klausler default:
7084a099dfSpeter klausler return false;
7164ab3302SCarolineConcatto }
721f525eceSTim Keith }));
7364ab3302SCarolineConcatto }
7464ab3302SCarolineConcatto
GetProgramUnitContaining(const Symbol & symbol)751f525eceSTim Keith const Scope &GetProgramUnitContaining(const Symbol &symbol) {
761f525eceSTim Keith return GetProgramUnitContaining(symbol.owner());
7764ab3302SCarolineConcatto }
7864ab3302SCarolineConcatto
GetProgramUnitOrBlockConstructContaining(const Scope & start)79*a9782feaSPeter Klausler const Scope &GetProgramUnitOrBlockConstructContaining(const Scope &start) {
80*a9782feaSPeter Klausler CHECK(!start.IsTopLevel());
81*a9782feaSPeter Klausler return DEREF(FindScopeContaining(start, [](const Scope &scope) {
82*a9782feaSPeter Klausler switch (scope.kind()) {
83*a9782feaSPeter Klausler case Scope::Kind::Module:
84*a9782feaSPeter Klausler case Scope::Kind::MainProgram:
85*a9782feaSPeter Klausler case Scope::Kind::Subprogram:
86*a9782feaSPeter Klausler case Scope::Kind::BlockData:
87*a9782feaSPeter Klausler case Scope::Kind::BlockConstruct:
88*a9782feaSPeter Klausler return true;
89*a9782feaSPeter Klausler default:
90*a9782feaSPeter Klausler return false;
91*a9782feaSPeter Klausler }
92*a9782feaSPeter Klausler }));
93*a9782feaSPeter Klausler }
94*a9782feaSPeter Klausler
GetProgramUnitOrBlockConstructContaining(const Symbol & symbol)95*a9782feaSPeter Klausler const Scope &GetProgramUnitOrBlockConstructContaining(const Symbol &symbol) {
96*a9782feaSPeter Klausler return GetProgramUnitOrBlockConstructContaining(symbol.owner());
97*a9782feaSPeter Klausler }
98*a9782feaSPeter Klausler
FindPureProcedureContaining(const Scope & start)9964ab3302SCarolineConcatto const Scope *FindPureProcedureContaining(const Scope &start) {
10064ab3302SCarolineConcatto // N.B. We only need to examine the innermost containing program unit
10164ab3302SCarolineConcatto // because an internal subprogram of a pure subprogram must also
10264ab3302SCarolineConcatto // be pure (C1592).
10352a1346bSPeter Klausler if (start.IsTopLevel()) {
1041dff8637Speter klausler return nullptr;
1051dff8637Speter klausler } else {
1061f525eceSTim Keith const Scope &scope{GetProgramUnitContaining(start)};
1071f525eceSTim Keith return IsPureProcedure(scope) ? &scope : nullptr;
10864ab3302SCarolineConcatto }
1091dff8637Speter klausler }
11064ab3302SCarolineConcatto
111f2dac557SPeter Klausler // 7.5.2.4 "same derived type" test -- rely on IsTkCompatibleWith() and its
112f2dac557SPeter Klausler // infrastructure to detect and handle comparisons on distinct (but "same")
113f2dac557SPeter Klausler // sequence/bind(C) derived types
MightBeSameDerivedType(const std::optional<evaluate::DynamicType> & lhsType,const std::optional<evaluate::DynamicType> & rhsType)114f2dac557SPeter Klausler static bool MightBeSameDerivedType(
115d667b96cSPeter Steinfeld const std::optional<evaluate::DynamicType> &lhsType,
116d667b96cSPeter Steinfeld const std::optional<evaluate::DynamicType> &rhsType) {
117eef76f98SPeter Klausler return lhsType && rhsType && lhsType->IsTkCompatibleWith(*rhsType);
118d667b96cSPeter Steinfeld }
119d667b96cSPeter Steinfeld
IsDefinedAssignment(const std::optional<evaluate::DynamicType> & lhsType,int lhsRank,const std::optional<evaluate::DynamicType> & rhsType,int rhsRank)12064ab3302SCarolineConcatto Tristate IsDefinedAssignment(
12164ab3302SCarolineConcatto const std::optional<evaluate::DynamicType> &lhsType, int lhsRank,
12264ab3302SCarolineConcatto const std::optional<evaluate::DynamicType> &rhsType, int rhsRank) {
12364ab3302SCarolineConcatto if (!lhsType || !rhsType) {
12464ab3302SCarolineConcatto return Tristate::No; // error or rhs is untyped
12564ab3302SCarolineConcatto }
12648a8a3ebSPeter Klausler if (lhsType->IsUnlimitedPolymorphic()) {
1270363a164SPeter Klausler return Tristate::No;
1280363a164SPeter Klausler }
12948a8a3ebSPeter Klausler if (rhsType->IsUnlimitedPolymorphic()) {
13048a8a3ebSPeter Klausler return Tristate::Maybe;
13148a8a3ebSPeter Klausler }
13264ab3302SCarolineConcatto TypeCategory lhsCat{lhsType->category()};
13364ab3302SCarolineConcatto TypeCategory rhsCat{rhsType->category()};
13464ab3302SCarolineConcatto if (rhsRank > 0 && lhsRank != rhsRank) {
13564ab3302SCarolineConcatto return Tristate::Yes;
13664ab3302SCarolineConcatto } else if (lhsCat != TypeCategory::Derived) {
13764ab3302SCarolineConcatto return ToTristate(lhsCat != rhsCat &&
13864ab3302SCarolineConcatto (!IsNumericTypeCategory(lhsCat) || !IsNumericTypeCategory(rhsCat)));
139f2dac557SPeter Klausler } else if (MightBeSameDerivedType(lhsType, rhsType)) {
140d667b96cSPeter Steinfeld return Tristate::Maybe; // TYPE(t) = TYPE(t) can be defined or intrinsic
14164ab3302SCarolineConcatto } else {
14264ab3302SCarolineConcatto return Tristate::Yes;
14364ab3302SCarolineConcatto }
14464ab3302SCarolineConcatto }
14564ab3302SCarolineConcatto
IsIntrinsicRelational(common::RelationalOperator opr,const evaluate::DynamicType & type0,int rank0,const evaluate::DynamicType & type1,int rank1)14664ab3302SCarolineConcatto bool IsIntrinsicRelational(common::RelationalOperator opr,
14764ab3302SCarolineConcatto const evaluate::DynamicType &type0, int rank0,
14864ab3302SCarolineConcatto const evaluate::DynamicType &type1, int rank1) {
14964ab3302SCarolineConcatto if (!evaluate::AreConformable(rank0, rank1)) {
15064ab3302SCarolineConcatto return false;
15164ab3302SCarolineConcatto } else {
15264ab3302SCarolineConcatto auto cat0{type0.category()};
15364ab3302SCarolineConcatto auto cat1{type1.category()};
15464ab3302SCarolineConcatto if (IsNumericTypeCategory(cat0) && IsNumericTypeCategory(cat1)) {
15564ab3302SCarolineConcatto // numeric types: EQ/NE always ok, others ok for non-complex
15664ab3302SCarolineConcatto return opr == common::RelationalOperator::EQ ||
15764ab3302SCarolineConcatto opr == common::RelationalOperator::NE ||
15864ab3302SCarolineConcatto (cat0 != TypeCategory::Complex && cat1 != TypeCategory::Complex);
15964ab3302SCarolineConcatto } else {
16064ab3302SCarolineConcatto // not both numeric: only Character is ok
16164ab3302SCarolineConcatto return cat0 == TypeCategory::Character && cat1 == TypeCategory::Character;
16264ab3302SCarolineConcatto }
16364ab3302SCarolineConcatto }
16464ab3302SCarolineConcatto }
16564ab3302SCarolineConcatto
IsIntrinsicNumeric(const evaluate::DynamicType & type0)16664ab3302SCarolineConcatto bool IsIntrinsicNumeric(const evaluate::DynamicType &type0) {
16764ab3302SCarolineConcatto return IsNumericTypeCategory(type0.category());
16864ab3302SCarolineConcatto }
IsIntrinsicNumeric(const evaluate::DynamicType & type0,int rank0,const evaluate::DynamicType & type1,int rank1)16964ab3302SCarolineConcatto bool IsIntrinsicNumeric(const evaluate::DynamicType &type0, int rank0,
17064ab3302SCarolineConcatto const evaluate::DynamicType &type1, int rank1) {
17164ab3302SCarolineConcatto return evaluate::AreConformable(rank0, rank1) &&
17264ab3302SCarolineConcatto IsNumericTypeCategory(type0.category()) &&
17364ab3302SCarolineConcatto IsNumericTypeCategory(type1.category());
17464ab3302SCarolineConcatto }
17564ab3302SCarolineConcatto
IsIntrinsicLogical(const evaluate::DynamicType & type0)17664ab3302SCarolineConcatto bool IsIntrinsicLogical(const evaluate::DynamicType &type0) {
17764ab3302SCarolineConcatto return type0.category() == TypeCategory::Logical;
17864ab3302SCarolineConcatto }
IsIntrinsicLogical(const evaluate::DynamicType & type0,int rank0,const evaluate::DynamicType & type1,int rank1)17964ab3302SCarolineConcatto bool IsIntrinsicLogical(const evaluate::DynamicType &type0, int rank0,
18064ab3302SCarolineConcatto const evaluate::DynamicType &type1, int rank1) {
18164ab3302SCarolineConcatto return evaluate::AreConformable(rank0, rank1) &&
18264ab3302SCarolineConcatto type0.category() == TypeCategory::Logical &&
18364ab3302SCarolineConcatto type1.category() == TypeCategory::Logical;
18464ab3302SCarolineConcatto }
18564ab3302SCarolineConcatto
IsIntrinsicConcat(const evaluate::DynamicType & type0,int rank0,const evaluate::DynamicType & type1,int rank1)18664ab3302SCarolineConcatto bool IsIntrinsicConcat(const evaluate::DynamicType &type0, int rank0,
18764ab3302SCarolineConcatto const evaluate::DynamicType &type1, int rank1) {
18864ab3302SCarolineConcatto return evaluate::AreConformable(rank0, rank1) &&
18964ab3302SCarolineConcatto type0.category() == TypeCategory::Character &&
19064ab3302SCarolineConcatto type1.category() == TypeCategory::Character &&
19164ab3302SCarolineConcatto type0.kind() == type1.kind();
19264ab3302SCarolineConcatto }
19364ab3302SCarolineConcatto
IsGenericDefinedOp(const Symbol & symbol)19464ab3302SCarolineConcatto bool IsGenericDefinedOp(const Symbol &symbol) {
19564ab3302SCarolineConcatto const Symbol &ultimate{symbol.GetUltimate()};
19664ab3302SCarolineConcatto if (const auto *generic{ultimate.detailsIf<GenericDetails>()}) {
19764ab3302SCarolineConcatto return generic->kind().IsDefinedOperator();
19864ab3302SCarolineConcatto } else if (const auto *misc{ultimate.detailsIf<MiscDetails>()}) {
19964ab3302SCarolineConcatto return misc->kind() == MiscDetails::Kind::TypeBoundDefinedOp;
20064ab3302SCarolineConcatto } else {
20164ab3302SCarolineConcatto return false;
20264ab3302SCarolineConcatto }
20364ab3302SCarolineConcatto }
20464ab3302SCarolineConcatto
IsDefinedOperator(SourceName name)20582edd428STim Keith bool IsDefinedOperator(SourceName name) {
20682edd428STim Keith const char *begin{name.begin()};
20782edd428STim Keith const char *end{name.end()};
20882edd428STim Keith return begin != end && begin[0] == '.' && end[-1] == '.';
20982edd428STim Keith }
21082edd428STim Keith
MakeOpName(SourceName name)21182edd428STim Keith std::string MakeOpName(SourceName name) {
21282edd428STim Keith std::string result{name.ToString()};
21382edd428STim Keith return IsDefinedOperator(name) ? "OPERATOR(" + result + ")"
21482edd428STim Keith : result.find("operator(", 0) == 0 ? parser::ToUpperCaseLetters(result)
21582edd428STim Keith : result;
21682edd428STim Keith }
21782edd428STim Keith
IsCommonBlockContaining(const Symbol & block,const Symbol & object)21864ab3302SCarolineConcatto bool IsCommonBlockContaining(const Symbol &block, const Symbol &object) {
21964ab3302SCarolineConcatto const auto &objects{block.get<CommonBlockDetails>().objects()};
22064ab3302SCarolineConcatto auto found{std::find(objects.begin(), objects.end(), object)};
22164ab3302SCarolineConcatto return found != objects.end();
22264ab3302SCarolineConcatto }
22364ab3302SCarolineConcatto
IsUseAssociated(const Symbol & symbol,const Scope & scope)22464ab3302SCarolineConcatto bool IsUseAssociated(const Symbol &symbol, const Scope &scope) {
225*a9782feaSPeter Klausler const Scope &owner{
226*a9782feaSPeter Klausler GetProgramUnitOrBlockConstructContaining(symbol.GetUltimate().owner())};
2271f525eceSTim Keith return owner.kind() == Scope::Kind::Module &&
228*a9782feaSPeter Klausler owner != GetProgramUnitOrBlockConstructContaining(scope);
22964ab3302SCarolineConcatto }
23064ab3302SCarolineConcatto
DoesScopeContain(const Scope * maybeAncestor,const Scope & maybeDescendent)23164ab3302SCarolineConcatto bool DoesScopeContain(
23264ab3302SCarolineConcatto const Scope *maybeAncestor, const Scope &maybeDescendent) {
23352a1346bSPeter Klausler return maybeAncestor && !maybeDescendent.IsTopLevel() &&
23447452b96STim Keith FindScopeContaining(maybeDescendent.parent(),
23547452b96STim Keith [&](const Scope &scope) { return &scope == maybeAncestor; });
23664ab3302SCarolineConcatto }
23764ab3302SCarolineConcatto
DoesScopeContain(const Scope * maybeAncestor,const Symbol & symbol)23864ab3302SCarolineConcatto bool DoesScopeContain(const Scope *maybeAncestor, const Symbol &symbol) {
23964ab3302SCarolineConcatto return DoesScopeContain(maybeAncestor, symbol.owner());
24064ab3302SCarolineConcatto }
24164ab3302SCarolineConcatto
FollowHostAssoc(const Symbol & symbol)24238272f45STim Keith static const Symbol &FollowHostAssoc(const Symbol &symbol) {
24338272f45STim Keith for (const Symbol *s{&symbol};;) {
24438272f45STim Keith const auto *details{s->detailsIf<HostAssocDetails>()};
24538272f45STim Keith if (!details) {
24638272f45STim Keith return *s;
24738272f45STim Keith }
24838272f45STim Keith s = &details->symbol();
24938272f45STim Keith }
25038272f45STim Keith }
25138272f45STim Keith
IsHostAssociated(const Symbol & symbol,const Scope & scope)25264ab3302SCarolineConcatto bool IsHostAssociated(const Symbol &symbol, const Scope &scope) {
2531f525eceSTim Keith return DoesScopeContain(
254*a9782feaSPeter Klausler &GetProgramUnitOrBlockConstructContaining(FollowHostAssoc(symbol)),
255*a9782feaSPeter Klausler GetProgramUnitOrBlockConstructContaining(scope));
25664ab3302SCarolineConcatto }
25764ab3302SCarolineConcatto
IsInStmtFunction(const Symbol & symbol)258657aaf8bSPete Steinfeld bool IsInStmtFunction(const Symbol &symbol) {
259657aaf8bSPete Steinfeld if (const Symbol * function{symbol.owner().symbol()}) {
260657aaf8bSPete Steinfeld return IsStmtFunction(*function);
261657aaf8bSPete Steinfeld }
262657aaf8bSPete Steinfeld return false;
263657aaf8bSPete Steinfeld }
264657aaf8bSPete Steinfeld
IsStmtFunctionDummy(const Symbol & symbol)265657aaf8bSPete Steinfeld bool IsStmtFunctionDummy(const Symbol &symbol) {
266657aaf8bSPete Steinfeld return IsDummy(symbol) && IsInStmtFunction(symbol);
267657aaf8bSPete Steinfeld }
268657aaf8bSPete Steinfeld
IsStmtFunctionResult(const Symbol & symbol)269657aaf8bSPete Steinfeld bool IsStmtFunctionResult(const Symbol &symbol) {
270657aaf8bSPete Steinfeld return IsFunctionResult(symbol) && IsInStmtFunction(symbol);
271657aaf8bSPete Steinfeld }
272657aaf8bSPete Steinfeld
IsPointerDummy(const Symbol & symbol)27364ab3302SCarolineConcatto bool IsPointerDummy(const Symbol &symbol) {
27464ab3302SCarolineConcatto return IsPointer(symbol) && IsDummy(symbol);
27564ab3302SCarolineConcatto }
27664ab3302SCarolineConcatto
IsBindCProcedure(const Symbol & symbol)27764ab3302SCarolineConcatto bool IsBindCProcedure(const Symbol &symbol) {
27864ab3302SCarolineConcatto if (const auto *procDetails{symbol.detailsIf<ProcEntityDetails>()}) {
27964ab3302SCarolineConcatto if (const Symbol * procInterface{procDetails->interface().symbol()}) {
28064ab3302SCarolineConcatto // procedure component with a BIND(C) interface
28164ab3302SCarolineConcatto return IsBindCProcedure(*procInterface);
28264ab3302SCarolineConcatto }
28364ab3302SCarolineConcatto }
28464ab3302SCarolineConcatto return symbol.attrs().test(Attr::BIND_C) && IsProcedure(symbol);
28564ab3302SCarolineConcatto }
28664ab3302SCarolineConcatto
IsBindCProcedure(const Scope & scope)28764ab3302SCarolineConcatto bool IsBindCProcedure(const Scope &scope) {
28864ab3302SCarolineConcatto if (const Symbol * symbol{scope.GetSymbol()}) {
28964ab3302SCarolineConcatto return IsBindCProcedure(*symbol);
29064ab3302SCarolineConcatto } else {
29164ab3302SCarolineConcatto return false;
29264ab3302SCarolineConcatto }
29364ab3302SCarolineConcatto }
29464ab3302SCarolineConcatto
FindPointerComponent(const Scope & scope,std::set<const Scope * > & visited)29564ab3302SCarolineConcatto static const Symbol *FindPointerComponent(
29664ab3302SCarolineConcatto const Scope &scope, std::set<const Scope *> &visited) {
29764ab3302SCarolineConcatto if (!scope.IsDerivedType()) {
29864ab3302SCarolineConcatto return nullptr;
29964ab3302SCarolineConcatto }
30064ab3302SCarolineConcatto if (!visited.insert(&scope).second) {
30164ab3302SCarolineConcatto return nullptr;
30264ab3302SCarolineConcatto }
30364ab3302SCarolineConcatto // If there's a top-level pointer component, return it for clearer error
30464ab3302SCarolineConcatto // messaging.
30564ab3302SCarolineConcatto for (const auto &pair : scope) {
30664ab3302SCarolineConcatto const Symbol &symbol{*pair.second};
30764ab3302SCarolineConcatto if (IsPointer(symbol)) {
30864ab3302SCarolineConcatto return &symbol;
30964ab3302SCarolineConcatto }
31064ab3302SCarolineConcatto }
31164ab3302SCarolineConcatto for (const auto &pair : scope) {
31264ab3302SCarolineConcatto const Symbol &symbol{*pair.second};
31364ab3302SCarolineConcatto if (const auto *details{symbol.detailsIf<ObjectEntityDetails>()}) {
31464ab3302SCarolineConcatto if (const DeclTypeSpec * type{details->type()}) {
31564ab3302SCarolineConcatto if (const DerivedTypeSpec * derived{type->AsDerived()}) {
31664ab3302SCarolineConcatto if (const Scope * nested{derived->scope()}) {
31764ab3302SCarolineConcatto if (const Symbol *
31864ab3302SCarolineConcatto pointer{FindPointerComponent(*nested, visited)}) {
31964ab3302SCarolineConcatto return pointer;
32064ab3302SCarolineConcatto }
32164ab3302SCarolineConcatto }
32264ab3302SCarolineConcatto }
32364ab3302SCarolineConcatto }
32464ab3302SCarolineConcatto }
32564ab3302SCarolineConcatto }
32664ab3302SCarolineConcatto return nullptr;
32764ab3302SCarolineConcatto }
32864ab3302SCarolineConcatto
FindPointerComponent(const Scope & scope)32964ab3302SCarolineConcatto const Symbol *FindPointerComponent(const Scope &scope) {
33064ab3302SCarolineConcatto std::set<const Scope *> visited;
33164ab3302SCarolineConcatto return FindPointerComponent(scope, visited);
33264ab3302SCarolineConcatto }
33364ab3302SCarolineConcatto
FindPointerComponent(const DerivedTypeSpec & derived)33464ab3302SCarolineConcatto const Symbol *FindPointerComponent(const DerivedTypeSpec &derived) {
33564ab3302SCarolineConcatto if (const Scope * scope{derived.scope()}) {
33664ab3302SCarolineConcatto return FindPointerComponent(*scope);
33764ab3302SCarolineConcatto } else {
33864ab3302SCarolineConcatto return nullptr;
33964ab3302SCarolineConcatto }
34064ab3302SCarolineConcatto }
34164ab3302SCarolineConcatto
FindPointerComponent(const DeclTypeSpec & type)34264ab3302SCarolineConcatto const Symbol *FindPointerComponent(const DeclTypeSpec &type) {
34364ab3302SCarolineConcatto if (const DerivedTypeSpec * derived{type.AsDerived()}) {
34464ab3302SCarolineConcatto return FindPointerComponent(*derived);
34564ab3302SCarolineConcatto } else {
34664ab3302SCarolineConcatto return nullptr;
34764ab3302SCarolineConcatto }
34864ab3302SCarolineConcatto }
34964ab3302SCarolineConcatto
FindPointerComponent(const DeclTypeSpec * type)35064ab3302SCarolineConcatto const Symbol *FindPointerComponent(const DeclTypeSpec *type) {
35164ab3302SCarolineConcatto return type ? FindPointerComponent(*type) : nullptr;
35264ab3302SCarolineConcatto }
35364ab3302SCarolineConcatto
FindPointerComponent(const Symbol & symbol)35464ab3302SCarolineConcatto const Symbol *FindPointerComponent(const Symbol &symbol) {
35564ab3302SCarolineConcatto return IsPointer(symbol) ? &symbol : FindPointerComponent(symbol.GetType());
35664ab3302SCarolineConcatto }
35764ab3302SCarolineConcatto
35864ab3302SCarolineConcatto // C1594 specifies several ways by which an object might be globally visible.
FindExternallyVisibleObject(const Symbol & object,const Scope & scope)35964ab3302SCarolineConcatto const Symbol *FindExternallyVisibleObject(
36064ab3302SCarolineConcatto const Symbol &object, const Scope &scope) {
36164ab3302SCarolineConcatto // TODO: Storage association with any object for which this predicate holds,
36264ab3302SCarolineConcatto // once EQUIVALENCE is supported.
3630996b590Speter klausler const Symbol &ultimate{GetAssociationRoot(object)};
3640996b590Speter klausler if (IsDummy(ultimate)) {
3650996b590Speter klausler if (IsIntentIn(ultimate)) {
3660996b590Speter klausler return &ultimate;
36764ab3302SCarolineConcatto }
3680996b590Speter klausler if (IsPointer(ultimate) && IsPureProcedure(ultimate.owner()) &&
3690996b590Speter klausler IsFunction(ultimate.owner())) {
3700996b590Speter klausler return &ultimate;
3710996b590Speter klausler }
3720996b590Speter klausler } else if (&GetProgramUnitContaining(ultimate) !=
3730996b590Speter klausler &GetProgramUnitContaining(scope)) {
3740996b590Speter klausler return &object;
3750996b590Speter klausler } else if (const Symbol * block{FindCommonBlockContaining(ultimate)}) {
3760996b590Speter klausler return block;
3770996b590Speter klausler }
3780996b590Speter klausler return nullptr;
37964ab3302SCarolineConcatto }
38064ab3302SCarolineConcatto
BypassGeneric(const Symbol & symbol)3813cc5d4ffSpeter klausler const Symbol &BypassGeneric(const Symbol &symbol) {
3823cc5d4ffSpeter klausler const Symbol &ultimate{symbol.GetUltimate()};
3833cc5d4ffSpeter klausler if (const auto *generic{ultimate.detailsIf<GenericDetails>()}) {
3843cc5d4ffSpeter klausler if (const Symbol * specific{generic->specific()}) {
3853cc5d4ffSpeter klausler return *specific;
3863cc5d4ffSpeter klausler }
3873cc5d4ffSpeter klausler }
3883cc5d4ffSpeter klausler return symbol;
3893cc5d4ffSpeter klausler }
3903cc5d4ffSpeter klausler
ExprHasTypeCategory(const SomeExpr & expr,const common::TypeCategory & type)39164ab3302SCarolineConcatto bool ExprHasTypeCategory(
39264ab3302SCarolineConcatto const SomeExpr &expr, const common::TypeCategory &type) {
39364ab3302SCarolineConcatto auto dynamicType{expr.GetType()};
39464ab3302SCarolineConcatto return dynamicType && dynamicType->category() == type;
39564ab3302SCarolineConcatto }
39664ab3302SCarolineConcatto
ExprTypeKindIsDefault(const SomeExpr & expr,const SemanticsContext & context)39764ab3302SCarolineConcatto bool ExprTypeKindIsDefault(
39864ab3302SCarolineConcatto const SomeExpr &expr, const SemanticsContext &context) {
39964ab3302SCarolineConcatto auto dynamicType{expr.GetType()};
40064ab3302SCarolineConcatto return dynamicType &&
40164ab3302SCarolineConcatto dynamicType->category() != common::TypeCategory::Derived &&
40264ab3302SCarolineConcatto dynamicType->kind() == context.GetDefaultKind(dynamicType->category());
40364ab3302SCarolineConcatto }
40464ab3302SCarolineConcatto
40564ab3302SCarolineConcatto // If an analyzed expr or assignment is missing, dump the node and die.
40684a099dfSpeter klausler template <typename T>
CheckMissingAnalysis(bool crash,SemanticsContext * context,const T & x)4077e225423SPeter Klausler static void CheckMissingAnalysis(
4087e225423SPeter Klausler bool crash, SemanticsContext *context, const T &x) {
4097e225423SPeter Klausler if (crash && !(context && context->AnyFatalError())) {
4108670e499SCaroline Concatto std::string buf;
4118670e499SCaroline Concatto llvm::raw_string_ostream ss{buf};
41264ab3302SCarolineConcatto ss << "node has not been analyzed:\n";
41364ab3302SCarolineConcatto parser::DumpTree(ss, x);
41464ab3302SCarolineConcatto common::die(ss.str().c_str());
41564ab3302SCarolineConcatto }
41664ab3302SCarolineConcatto }
41764ab3302SCarolineConcatto
Get(const parser::Expr & x)41892d27b96SJean Perier const SomeExpr *GetExprHelper::Get(const parser::Expr &x) {
4197e225423SPeter Klausler CheckMissingAnalysis(crashIfNoExpr_ && !x.typedExpr, context_, x);
4207e225423SPeter Klausler return x.typedExpr ? common::GetPtrFromOptional(x.typedExpr->v) : nullptr;
42192d27b96SJean Perier }
Get(const parser::Variable & x)42264ab3302SCarolineConcatto const SomeExpr *GetExprHelper::Get(const parser::Variable &x) {
4237e225423SPeter Klausler CheckMissingAnalysis(crashIfNoExpr_ && !x.typedExpr, context_, x);
4247e225423SPeter Klausler return x.typedExpr ? common::GetPtrFromOptional(x.typedExpr->v) : nullptr;
42564ab3302SCarolineConcatto }
Get(const parser::DataStmtConstant & x)4264171f80dSpeter klausler const SomeExpr *GetExprHelper::Get(const parser::DataStmtConstant &x) {
4277e225423SPeter Klausler CheckMissingAnalysis(crashIfNoExpr_ && !x.typedExpr, context_, x);
4287e225423SPeter Klausler return x.typedExpr ? common::GetPtrFromOptional(x.typedExpr->v) : nullptr;
42992d27b96SJean Perier }
Get(const parser::AllocateObject & x)43092d27b96SJean Perier const SomeExpr *GetExprHelper::Get(const parser::AllocateObject &x) {
4317e225423SPeter Klausler CheckMissingAnalysis(crashIfNoExpr_ && !x.typedExpr, context_, x);
4327e225423SPeter Klausler return x.typedExpr ? common::GetPtrFromOptional(x.typedExpr->v) : nullptr;
43392d27b96SJean Perier }
Get(const parser::PointerObject & x)43492d27b96SJean Perier const SomeExpr *GetExprHelper::Get(const parser::PointerObject &x) {
4357e225423SPeter Klausler CheckMissingAnalysis(crashIfNoExpr_ && !x.typedExpr, context_, x);
4367e225423SPeter Klausler return x.typedExpr ? common::GetPtrFromOptional(x.typedExpr->v) : nullptr;
4374171f80dSpeter klausler }
43864ab3302SCarolineConcatto
GetAssignment(const parser::AssignmentStmt & x)43964ab3302SCarolineConcatto const evaluate::Assignment *GetAssignment(const parser::AssignmentStmt &x) {
4407e225423SPeter Klausler return x.typedAssignment ? common::GetPtrFromOptional(x.typedAssignment->v)
4417e225423SPeter Klausler : nullptr;
44264ab3302SCarolineConcatto }
GetAssignment(const parser::PointerAssignmentStmt & x)44364ab3302SCarolineConcatto const evaluate::Assignment *GetAssignment(
44464ab3302SCarolineConcatto const parser::PointerAssignmentStmt &x) {
4457e225423SPeter Klausler return x.typedAssignment ? common::GetPtrFromOptional(x.typedAssignment->v)
4467e225423SPeter Klausler : nullptr;
44764ab3302SCarolineConcatto }
44864ab3302SCarolineConcatto
FindInterface(const Symbol & symbol)44964ab3302SCarolineConcatto const Symbol *FindInterface(const Symbol &symbol) {
450cd03e96fSPeter Klausler return common::visit(
45164ab3302SCarolineConcatto common::visitors{
45264ab3302SCarolineConcatto [](const ProcEntityDetails &details) {
45364ab3302SCarolineConcatto return details.interface().symbol();
45464ab3302SCarolineConcatto },
45564ab3302SCarolineConcatto [](const ProcBindingDetails &details) { return &details.symbol(); },
45664ab3302SCarolineConcatto [](const auto &) -> const Symbol * { return nullptr; },
45764ab3302SCarolineConcatto },
45864ab3302SCarolineConcatto symbol.details());
45964ab3302SCarolineConcatto }
46064ab3302SCarolineConcatto
FindSubprogram(const Symbol & symbol)46164ab3302SCarolineConcatto const Symbol *FindSubprogram(const Symbol &symbol) {
462cd03e96fSPeter Klausler return common::visit(
46364ab3302SCarolineConcatto common::visitors{
46464ab3302SCarolineConcatto [&](const ProcEntityDetails &details) -> const Symbol * {
46564ab3302SCarolineConcatto if (const Symbol * interface{details.interface().symbol()}) {
46664ab3302SCarolineConcatto return FindSubprogram(*interface);
46764ab3302SCarolineConcatto } else {
46864ab3302SCarolineConcatto return &symbol;
46964ab3302SCarolineConcatto }
47064ab3302SCarolineConcatto },
47164ab3302SCarolineConcatto [](const ProcBindingDetails &details) {
47264ab3302SCarolineConcatto return FindSubprogram(details.symbol());
47364ab3302SCarolineConcatto },
47464ab3302SCarolineConcatto [&](const SubprogramDetails &) { return &symbol; },
47564ab3302SCarolineConcatto [](const UseDetails &details) {
47664ab3302SCarolineConcatto return FindSubprogram(details.symbol());
47764ab3302SCarolineConcatto },
47864ab3302SCarolineConcatto [](const HostAssocDetails &details) {
47964ab3302SCarolineConcatto return FindSubprogram(details.symbol());
48064ab3302SCarolineConcatto },
48164ab3302SCarolineConcatto [](const auto &) -> const Symbol * { return nullptr; },
48264ab3302SCarolineConcatto },
48364ab3302SCarolineConcatto symbol.details());
48464ab3302SCarolineConcatto }
48564ab3302SCarolineConcatto
FindOverriddenBinding(const Symbol & symbol)48664ab3302SCarolineConcatto const Symbol *FindOverriddenBinding(const Symbol &symbol) {
48764ab3302SCarolineConcatto if (symbol.has<ProcBindingDetails>()) {
48864ab3302SCarolineConcatto if (const DeclTypeSpec * parentType{FindParentTypeSpec(symbol.owner())}) {
48964ab3302SCarolineConcatto if (const DerivedTypeSpec * parentDerived{parentType->AsDerived()}) {
49064ab3302SCarolineConcatto if (const Scope * parentScope{parentDerived->typeSymbol().scope()}) {
49164ab3302SCarolineConcatto return parentScope->FindComponent(symbol.name());
49264ab3302SCarolineConcatto }
49364ab3302SCarolineConcatto }
49464ab3302SCarolineConcatto }
49564ab3302SCarolineConcatto }
49664ab3302SCarolineConcatto return nullptr;
49764ab3302SCarolineConcatto }
49864ab3302SCarolineConcatto
FindParentTypeSpec(const DerivedTypeSpec & derived)49964ab3302SCarolineConcatto const DeclTypeSpec *FindParentTypeSpec(const DerivedTypeSpec &derived) {
50064ab3302SCarolineConcatto return FindParentTypeSpec(derived.typeSymbol());
50164ab3302SCarolineConcatto }
50264ab3302SCarolineConcatto
FindParentTypeSpec(const DeclTypeSpec & decl)50364ab3302SCarolineConcatto const DeclTypeSpec *FindParentTypeSpec(const DeclTypeSpec &decl) {
50464ab3302SCarolineConcatto if (const DerivedTypeSpec * derived{decl.AsDerived()}) {
50564ab3302SCarolineConcatto return FindParentTypeSpec(*derived);
50664ab3302SCarolineConcatto } else {
50764ab3302SCarolineConcatto return nullptr;
50864ab3302SCarolineConcatto }
50964ab3302SCarolineConcatto }
51064ab3302SCarolineConcatto
FindParentTypeSpec(const Scope & scope)51164ab3302SCarolineConcatto const DeclTypeSpec *FindParentTypeSpec(const Scope &scope) {
51264ab3302SCarolineConcatto if (scope.kind() == Scope::Kind::DerivedType) {
51364ab3302SCarolineConcatto if (const auto *symbol{scope.symbol()}) {
51464ab3302SCarolineConcatto return FindParentTypeSpec(*symbol);
51564ab3302SCarolineConcatto }
51664ab3302SCarolineConcatto }
51764ab3302SCarolineConcatto return nullptr;
51864ab3302SCarolineConcatto }
51964ab3302SCarolineConcatto
FindParentTypeSpec(const Symbol & symbol)52064ab3302SCarolineConcatto const DeclTypeSpec *FindParentTypeSpec(const Symbol &symbol) {
52164ab3302SCarolineConcatto if (const Scope * scope{symbol.scope()}) {
52264ab3302SCarolineConcatto if (const auto *details{symbol.detailsIf<DerivedTypeDetails>()}) {
52364ab3302SCarolineConcatto if (const Symbol * parent{details->GetParentComponent(*scope)}) {
52464ab3302SCarolineConcatto return parent->GetType();
52564ab3302SCarolineConcatto }
52664ab3302SCarolineConcatto }
52764ab3302SCarolineConcatto }
52864ab3302SCarolineConcatto return nullptr;
52964ab3302SCarolineConcatto }
53064ab3302SCarolineConcatto
FindEquivalenceSet(const Symbol & symbol)531d60a0220Speter klausler const EquivalenceSet *FindEquivalenceSet(const Symbol &symbol) {
532d60a0220Speter klausler const Symbol &ultimate{symbol.GetUltimate()};
533d60a0220Speter klausler for (const EquivalenceSet &set : ultimate.owner().equivalenceSets()) {
534d60a0220Speter klausler for (const EquivalenceObject &object : set) {
535d60a0220Speter klausler if (object.symbol == ultimate) {
536d60a0220Speter klausler return &set;
537d60a0220Speter klausler }
538d60a0220Speter klausler }
539d60a0220Speter klausler }
540d60a0220Speter klausler return nullptr;
541d60a0220Speter klausler }
542d60a0220Speter klausler
IsOrContainsEventOrLockComponent(const Symbol & original)543a50bb84eSpeter klausler bool IsOrContainsEventOrLockComponent(const Symbol &original) {
544a50bb84eSpeter klausler const Symbol &symbol{ResolveAssociations(original)};
545a50bb84eSpeter klausler if (const auto *details{symbol.detailsIf<ObjectEntityDetails>()}) {
54664ab3302SCarolineConcatto if (const DeclTypeSpec * type{details->type()}) {
54764ab3302SCarolineConcatto if (const DerivedTypeSpec * derived{type->AsDerived()}) {
54864ab3302SCarolineConcatto return IsEventTypeOrLockType(derived) ||
54964ab3302SCarolineConcatto FindEventOrLockPotentialComponent(*derived);
55064ab3302SCarolineConcatto }
55164ab3302SCarolineConcatto }
55264ab3302SCarolineConcatto }
55364ab3302SCarolineConcatto return false;
55464ab3302SCarolineConcatto }
55564ab3302SCarolineConcatto
55664ab3302SCarolineConcatto // Check this symbol suitable as a type-bound procedure - C769
CanBeTypeBoundProc(const Symbol * symbol)55764ab3302SCarolineConcatto bool CanBeTypeBoundProc(const Symbol *symbol) {
55864ab3302SCarolineConcatto if (!symbol || IsDummy(*symbol) || IsProcedurePointer(*symbol)) {
55964ab3302SCarolineConcatto return false;
56064ab3302SCarolineConcatto } else if (symbol->has<SubprogramNameDetails>()) {
56164ab3302SCarolineConcatto return symbol->owner().kind() == Scope::Kind::Module;
56264ab3302SCarolineConcatto } else if (auto *details{symbol->detailsIf<SubprogramDetails>()}) {
56364ab3302SCarolineConcatto return symbol->owner().kind() == Scope::Kind::Module ||
56464ab3302SCarolineConcatto details->isInterface();
56564ab3302SCarolineConcatto } else if (const auto *proc{symbol->detailsIf<ProcEntityDetails>()}) {
56664ab3302SCarolineConcatto return !symbol->attrs().test(Attr::INTRINSIC) &&
56764ab3302SCarolineConcatto proc->HasExplicitInterface();
56864ab3302SCarolineConcatto } else {
56964ab3302SCarolineConcatto return false;
57064ab3302SCarolineConcatto }
57164ab3302SCarolineConcatto }
57264ab3302SCarolineConcatto
HasDeclarationInitializer(const Symbol & symbol)573d60a0220Speter klausler bool HasDeclarationInitializer(const Symbol &symbol) {
574d60a0220Speter klausler if (IsNamedConstant(symbol)) {
57564ab3302SCarolineConcatto return false;
57664ab3302SCarolineConcatto } else if (const auto *object{symbol.detailsIf<ObjectEntityDetails>()}) {
577a50bb84eSpeter klausler return object->init().has_value();
57864ab3302SCarolineConcatto } else if (const auto *proc{symbol.detailsIf<ProcEntityDetails>()}) {
57964ab3302SCarolineConcatto return proc->init().has_value();
580d60a0220Speter klausler } else {
58164ab3302SCarolineConcatto return false;
58264ab3302SCarolineConcatto }
583d60a0220Speter klausler }
58464ab3302SCarolineConcatto
IsInitialized(const Symbol & symbol,bool ignoreDataStatements,bool ignoreAllocatable)585c4f67ea1SPeter Klausler bool IsInitialized(
586c4f67ea1SPeter Klausler const Symbol &symbol, bool ignoreDataStatements, bool ignoreAllocatable) {
587c4f67ea1SPeter Klausler if (!ignoreAllocatable && IsAllocatable(symbol)) {
588c4f67ea1SPeter Klausler return true;
589c4f67ea1SPeter Klausler } else if (!ignoreDataStatements && symbol.test(Symbol::Flag::InDataStmt)) {
590c4f67ea1SPeter Klausler return true;
591c4f67ea1SPeter Klausler } else if (HasDeclarationInitializer(symbol)) {
592a50bb84eSpeter klausler return true;
593a50bb84eSpeter klausler } else if (IsNamedConstant(symbol) || IsFunctionResult(symbol) ||
594a50bb84eSpeter klausler IsPointer(symbol)) {
595a50bb84eSpeter klausler return false;
596a50bb84eSpeter klausler } else if (const auto *object{symbol.detailsIf<ObjectEntityDetails>()}) {
597a50bb84eSpeter klausler if (!object->isDummy() && object->type()) {
598d60a0220Speter klausler if (const auto *derived{object->type()->AsDerived()}) {
599c4f67ea1SPeter Klausler return derived->HasDefaultInitialization(ignoreAllocatable);
600d60a0220Speter klausler }
601a50bb84eSpeter klausler }
602a50bb84eSpeter klausler }
603a50bb84eSpeter klausler return false;
604a50bb84eSpeter klausler }
605a50bb84eSpeter klausler
IsDestructible(const Symbol & symbol,const Symbol * derivedTypeSymbol)606a48e4168Speter klausler bool IsDestructible(const Symbol &symbol, const Symbol *derivedTypeSymbol) {
607a48e4168Speter klausler if (IsAllocatable(symbol) || IsAutomatic(symbol)) {
608a48e4168Speter klausler return true;
609a48e4168Speter klausler } else if (IsNamedConstant(symbol) || IsFunctionResult(symbol) ||
610a48e4168Speter klausler IsPointer(symbol)) {
611a48e4168Speter klausler return false;
612a48e4168Speter klausler } else if (const auto *object{symbol.detailsIf<ObjectEntityDetails>()}) {
613a48e4168Speter klausler if (!object->isDummy() && object->type()) {
614a48e4168Speter klausler if (const auto *derived{object->type()->AsDerived()}) {
615a48e4168Speter klausler return &derived->typeSymbol() != derivedTypeSymbol &&
616a48e4168Speter klausler derived->HasDestruction();
617a48e4168Speter klausler }
618a48e4168Speter klausler }
619a48e4168Speter klausler }
620a48e4168Speter klausler return false;
621a48e4168Speter klausler }
622a48e4168Speter klausler
HasIntrinsicTypeName(const Symbol & symbol)623e17e7173SPete Steinfeld bool HasIntrinsicTypeName(const Symbol &symbol) {
624e17e7173SPete Steinfeld std::string name{symbol.name().ToString()};
625e17e7173SPete Steinfeld if (name == "doubleprecision") {
626e17e7173SPete Steinfeld return true;
627e17e7173SPete Steinfeld } else if (name == "derived") {
628e17e7173SPete Steinfeld return false;
629e17e7173SPete Steinfeld } else {
630e17e7173SPete Steinfeld for (int i{0}; i != common::TypeCategory_enumSize; ++i) {
631e17e7173SPete Steinfeld if (name == parser::ToLowerCaseLetters(EnumToString(TypeCategory{i}))) {
632e17e7173SPete Steinfeld return true;
633e17e7173SPete Steinfeld }
634e17e7173SPete Steinfeld }
635e17e7173SPete Steinfeld return false;
636e17e7173SPete Steinfeld }
637e17e7173SPete Steinfeld }
638e17e7173SPete Steinfeld
IsSeparateModuleProcedureInterface(const Symbol * symbol)639c42f6314Speter klausler bool IsSeparateModuleProcedureInterface(const Symbol *symbol) {
640c42f6314Speter klausler if (symbol && symbol->attrs().test(Attr::MODULE)) {
641c42f6314Speter klausler if (auto *details{symbol->detailsIf<SubprogramDetails>()}) {
642c42f6314Speter klausler return details->isInterface();
643c42f6314Speter klausler }
644c42f6314Speter klausler }
645c42f6314Speter klausler return false;
646c42f6314Speter klausler }
647c42f6314Speter klausler
IsFinalizable(const Symbol & symbol,std::set<const DerivedTypeSpec * > * inProgress)64865f52904Speter klausler bool IsFinalizable(
64965f52904Speter klausler const Symbol &symbol, std::set<const DerivedTypeSpec *> *inProgress) {
6504fede8bcSpeter klausler if (IsPointer(symbol)) {
6514fede8bcSpeter klausler return false;
65264ab3302SCarolineConcatto }
6534fede8bcSpeter klausler if (const auto *object{symbol.detailsIf<ObjectEntityDetails>()}) {
6544fede8bcSpeter klausler if (object->isDummy() && !IsIntentOut(symbol)) {
6554fede8bcSpeter klausler return false;
6564fede8bcSpeter klausler }
6574fede8bcSpeter klausler const DeclTypeSpec *type{object->type()};
65865f52904Speter klausler const DerivedTypeSpec *typeSpec{type ? type->AsDerived() : nullptr};
65965f52904Speter klausler return typeSpec && IsFinalizable(*typeSpec, inProgress);
66064ab3302SCarolineConcatto }
66164ab3302SCarolineConcatto return false;
66264ab3302SCarolineConcatto }
66364ab3302SCarolineConcatto
IsFinalizable(const DerivedTypeSpec & derived,std::set<const DerivedTypeSpec * > * inProgress)66465f52904Speter klausler bool IsFinalizable(const DerivedTypeSpec &derived,
66565f52904Speter klausler std::set<const DerivedTypeSpec *> *inProgress) {
66637b2e2b0Speter klausler if (!derived.typeSymbol().get<DerivedTypeDetails>().finals().empty()) {
66737b2e2b0Speter klausler return true;
66837b2e2b0Speter klausler }
66965f52904Speter klausler std::set<const DerivedTypeSpec *> basis;
67065f52904Speter klausler if (inProgress) {
67165f52904Speter klausler if (inProgress->find(&derived) != inProgress->end()) {
67265f52904Speter klausler return false; // don't loop on recursive type
67365f52904Speter klausler }
67465f52904Speter klausler } else {
67565f52904Speter klausler inProgress = &basis;
67665f52904Speter klausler }
67765f52904Speter klausler auto iterator{inProgress->insert(&derived).first};
67865f52904Speter klausler PotentialComponentIterator components{derived};
67965f52904Speter klausler bool result{bool{std::find_if(
68065f52904Speter klausler components.begin(), components.end(), [=](const Symbol &component) {
68165f52904Speter klausler return IsFinalizable(component, inProgress);
68265f52904Speter klausler })}};
68365f52904Speter klausler inProgress->erase(iterator);
68465f52904Speter klausler return result;
68564ab3302SCarolineConcatto }
68664ab3302SCarolineConcatto
HasImpureFinal(const DerivedTypeSpec & derived)68764ab3302SCarolineConcatto bool HasImpureFinal(const DerivedTypeSpec &derived) {
68837b2e2b0Speter klausler if (const auto *details{
68937b2e2b0Speter klausler derived.typeSymbol().detailsIf<DerivedTypeDetails>()}) {
69037b2e2b0Speter klausler const auto &finals{details->finals()};
69137b2e2b0Speter klausler return std::any_of(finals.begin(), finals.end(),
6920c190575SPeter Klausler [](const auto &x) { return !IsPureProcedure(*x.second); });
69337b2e2b0Speter klausler } else {
69437b2e2b0Speter klausler return false;
69537b2e2b0Speter klausler }
69664ab3302SCarolineConcatto }
69764ab3302SCarolineConcatto
IsAssumedLengthCharacter(const Symbol & symbol)69864ab3302SCarolineConcatto bool IsAssumedLengthCharacter(const Symbol &symbol) {
69964ab3302SCarolineConcatto if (const DeclTypeSpec * type{symbol.GetType()}) {
70064ab3302SCarolineConcatto return type->category() == DeclTypeSpec::Character &&
70164ab3302SCarolineConcatto type->characterTypeSpec().length().isAssumed();
70264ab3302SCarolineConcatto } else {
70364ab3302SCarolineConcatto return false;
70464ab3302SCarolineConcatto }
70564ab3302SCarolineConcatto }
70664ab3302SCarolineConcatto
IsInBlankCommon(const Symbol & symbol)70770f1b4b4SAnchu Rajendran bool IsInBlankCommon(const Symbol &symbol) {
7084171f80dSpeter klausler const Symbol *block{FindCommonBlockContaining(symbol)};
7094171f80dSpeter klausler return block && block->name().empty();
71070f1b4b4SAnchu Rajendran }
71170f1b4b4SAnchu Rajendran
712657aaf8bSPete Steinfeld // C722 and C723: For a function to be assumed length, it must be external and
713657aaf8bSPete Steinfeld // of CHARACTER type
IsExternal(const Symbol & symbol)714c42f6314Speter klausler bool IsExternal(const Symbol &symbol) {
71537b2e2b0Speter klausler return ClassifyProcedure(symbol) == ProcedureDefinitionClass::External;
71664ab3302SCarolineConcatto }
71764ab3302SCarolineConcatto
718d60a0220Speter klausler // Most scopes have no EQUIVALENCE, and this function is a fast no-op for them.
GetStorageAssociations(const Scope & scope)719d60a0220Speter klausler std::list<std::list<SymbolRef>> GetStorageAssociations(const Scope &scope) {
720d60a0220Speter klausler UnorderedSymbolSet distinct;
721d60a0220Speter klausler for (const EquivalenceSet &set : scope.equivalenceSets()) {
722d60a0220Speter klausler for (const EquivalenceObject &object : set) {
723d60a0220Speter klausler distinct.emplace(object.symbol);
724d60a0220Speter klausler }
725d60a0220Speter klausler }
726d60a0220Speter klausler // This set is ordered by ascending offsets, with ties broken by greatest
727d60a0220Speter klausler // size. A multiset is used here because multiple symbols may have the
728d60a0220Speter klausler // same offset and size; the symbols in the set, however, are distinct.
729d60a0220Speter klausler std::multiset<SymbolRef, SymbolOffsetCompare> associated;
730d60a0220Speter klausler for (SymbolRef ref : distinct) {
731d60a0220Speter klausler associated.emplace(*ref);
732d60a0220Speter klausler }
733d60a0220Speter klausler std::list<std::list<SymbolRef>> result;
734d60a0220Speter klausler std::size_t limit{0};
735d60a0220Speter klausler const Symbol *currentCommon{nullptr};
736d60a0220Speter klausler for (const Symbol &symbol : associated) {
737d60a0220Speter klausler const Symbol *thisCommon{FindCommonBlockContaining(symbol)};
738d60a0220Speter klausler if (result.empty() || symbol.offset() >= limit ||
739d60a0220Speter klausler thisCommon != currentCommon) {
740d60a0220Speter klausler // Start a new group
741d60a0220Speter klausler result.emplace_back(std::list<SymbolRef>{});
742d60a0220Speter klausler limit = 0;
743d60a0220Speter klausler currentCommon = thisCommon;
744d60a0220Speter klausler }
745d60a0220Speter klausler result.back().emplace_back(symbol);
746d60a0220Speter klausler limit = std::max(limit, symbol.offset() + symbol.size());
747d60a0220Speter klausler }
748d60a0220Speter klausler return result;
749d60a0220Speter klausler }
750d60a0220Speter klausler
IsModuleProcedure(const Symbol & symbol)75137b2e2b0Speter klausler bool IsModuleProcedure(const Symbol &symbol) {
75237b2e2b0Speter klausler return ClassifyProcedure(symbol) == ProcedureDefinitionClass::Module;
75337b2e2b0Speter klausler }
IsExternalInPureContext(const Symbol & symbol,const Scope & scope)75464ab3302SCarolineConcatto const Symbol *IsExternalInPureContext(
75564ab3302SCarolineConcatto const Symbol &symbol, const Scope &scope) {
75647452b96STim Keith if (const auto *pureProc{FindPureProcedureContaining(scope)}) {
757a50bb84eSpeter klausler return FindExternallyVisibleObject(symbol.GetUltimate(), *pureProc);
75864ab3302SCarolineConcatto }
75964ab3302SCarolineConcatto return nullptr;
76064ab3302SCarolineConcatto }
76164ab3302SCarolineConcatto
FindPolymorphicPotentialComponent(const DerivedTypeSpec & derived)76264ab3302SCarolineConcatto PotentialComponentIterator::const_iterator FindPolymorphicPotentialComponent(
76364ab3302SCarolineConcatto const DerivedTypeSpec &derived) {
76464ab3302SCarolineConcatto PotentialComponentIterator potentials{derived};
76564ab3302SCarolineConcatto return std::find_if(
76664ab3302SCarolineConcatto potentials.begin(), potentials.end(), [](const Symbol &component) {
76764ab3302SCarolineConcatto if (const auto *details{component.detailsIf<ObjectEntityDetails>()}) {
76864ab3302SCarolineConcatto const DeclTypeSpec *type{details->type()};
76964ab3302SCarolineConcatto return type && type->IsPolymorphic();
77064ab3302SCarolineConcatto }
77164ab3302SCarolineConcatto return false;
77264ab3302SCarolineConcatto });
77364ab3302SCarolineConcatto }
77464ab3302SCarolineConcatto
IsOrContainsPolymorphicComponent(const Symbol & original)775a50bb84eSpeter klausler bool IsOrContainsPolymorphicComponent(const Symbol &original) {
776a50bb84eSpeter klausler const Symbol &symbol{ResolveAssociations(original)};
777a50bb84eSpeter klausler if (const auto *details{symbol.detailsIf<ObjectEntityDetails>()}) {
77864ab3302SCarolineConcatto if (const DeclTypeSpec * type{details->type()}) {
77964ab3302SCarolineConcatto if (type->IsPolymorphic()) {
78064ab3302SCarolineConcatto return true;
78164ab3302SCarolineConcatto }
78264ab3302SCarolineConcatto if (const DerivedTypeSpec * derived{type->AsDerived()}) {
78364ab3302SCarolineConcatto return (bool)FindPolymorphicPotentialComponent(*derived);
78464ab3302SCarolineConcatto }
78564ab3302SCarolineConcatto }
78664ab3302SCarolineConcatto }
78764ab3302SCarolineConcatto return false;
78864ab3302SCarolineConcatto }
78964ab3302SCarolineConcatto
InProtectedContext(const Symbol & symbol,const Scope & currentScope)79064ab3302SCarolineConcatto bool InProtectedContext(const Symbol &symbol, const Scope ¤tScope) {
79164ab3302SCarolineConcatto return IsProtected(symbol) && !IsHostAssociated(symbol, currentScope);
79264ab3302SCarolineConcatto }
79364ab3302SCarolineConcatto
79464ab3302SCarolineConcatto // C1101 and C1158
79524e8e21fSpeter klausler // Modifiability checks on the leftmost symbol ("base object")
79624e8e21fSpeter klausler // of a data-ref
WhyNotModifiableFirst(parser::CharBlock at,const Symbol & symbol,const Scope & scope)797625dedc3SPeter Klausler static std::optional<parser::Message> WhyNotModifiableFirst(
798625dedc3SPeter Klausler parser::CharBlock at, const Symbol &symbol, const Scope &scope) {
799625dedc3SPeter Klausler if (const auto *assoc{symbol.detailsIf<AssocEntityDetails>()}) {
800625dedc3SPeter Klausler if (assoc->rank().has_value()) {
801625dedc3SPeter Klausler return std::nullopt; // SELECT RANK always modifiable variable
802625dedc3SPeter Klausler } else if (IsVariable(assoc->expr())) {
803625dedc3SPeter Klausler if (evaluate::HasVectorSubscript(assoc->expr().value())) {
804625dedc3SPeter Klausler return parser::Message{
805625dedc3SPeter Klausler at, "Construct association has a vector subscript"_en_US};
806625dedc3SPeter Klausler } else {
807625dedc3SPeter Klausler return WhyNotModifiable(at, *assoc->expr(), scope);
808625dedc3SPeter Klausler }
809625dedc3SPeter Klausler } else {
810625dedc3SPeter Klausler return parser::Message{at,
811625dedc3SPeter Klausler "'%s' is construct associated with an expression"_en_US,
812625dedc3SPeter Klausler symbol.name()};
813625dedc3SPeter Klausler }
814a50bb84eSpeter klausler } else if (IsExternalInPureContext(symbol, scope)) {
815625dedc3SPeter Klausler return parser::Message{at,
816625dedc3SPeter Klausler "'%s' is externally visible and referenced in a pure"
817625dedc3SPeter Klausler " procedure"_en_US,
818625dedc3SPeter Klausler symbol.name()};
819a50bb84eSpeter klausler } else if (!IsVariableName(symbol)) {
820625dedc3SPeter Klausler return parser::Message{at, "'%s' is not a variable"_en_US, symbol.name()};
82164ab3302SCarolineConcatto } else {
82264ab3302SCarolineConcatto return std::nullopt;
82364ab3302SCarolineConcatto }
82464ab3302SCarolineConcatto }
82564ab3302SCarolineConcatto
82624e8e21fSpeter klausler // Modifiability checks on the rightmost symbol of a data-ref
WhyNotModifiableLast(parser::CharBlock at,const Symbol & symbol,const Scope & scope)827625dedc3SPeter Klausler static std::optional<parser::Message> WhyNotModifiableLast(
828625dedc3SPeter Klausler parser::CharBlock at, const Symbol &symbol, const Scope &scope) {
82924e8e21fSpeter klausler if (IsOrContainsEventOrLockComponent(symbol)) {
830625dedc3SPeter Klausler return parser::Message{at,
831625dedc3SPeter Klausler "'%s' is an entity with either an EVENT_TYPE or LOCK_TYPE"_en_US,
832625dedc3SPeter Klausler symbol.name()};
83324e8e21fSpeter klausler } else {
83424e8e21fSpeter klausler return std::nullopt;
83524e8e21fSpeter klausler }
83624e8e21fSpeter klausler }
83724e8e21fSpeter klausler
83824e8e21fSpeter klausler // Modifiability checks on the leftmost (base) symbol of a data-ref
83924e8e21fSpeter klausler // that apply only when there are no pointer components or a base
84024e8e21fSpeter klausler // that is a pointer.
WhyNotModifiableIfNoPtr(parser::CharBlock at,const Symbol & symbol,const Scope & scope)841625dedc3SPeter Klausler static std::optional<parser::Message> WhyNotModifiableIfNoPtr(
842625dedc3SPeter Klausler parser::CharBlock at, const Symbol &symbol, const Scope &scope) {
84324e8e21fSpeter klausler if (InProtectedContext(symbol, scope)) {
844625dedc3SPeter Klausler return parser::Message{
845625dedc3SPeter Klausler at, "'%s' is protected in this scope"_en_US, symbol.name()};
84624e8e21fSpeter klausler } else if (IsIntentIn(symbol)) {
847625dedc3SPeter Klausler return parser::Message{
848625dedc3SPeter Klausler at, "'%s' is an INTENT(IN) dummy argument"_en_US, symbol.name()};
84924e8e21fSpeter klausler } else {
85024e8e21fSpeter klausler return std::nullopt;
85124e8e21fSpeter klausler }
85224e8e21fSpeter klausler }
85324e8e21fSpeter klausler
85424e8e21fSpeter klausler // Apply all modifiability checks to a single symbol
WhyNotModifiable(const Symbol & original,const Scope & scope)855625dedc3SPeter Klausler std::optional<parser::Message> WhyNotModifiable(
85624e8e21fSpeter klausler const Symbol &original, const Scope &scope) {
85724e8e21fSpeter klausler const Symbol &symbol{GetAssociationRoot(original)};
858625dedc3SPeter Klausler if (auto first{WhyNotModifiableFirst(symbol.name(), symbol, scope)}) {
85924e8e21fSpeter klausler return first;
860625dedc3SPeter Klausler } else if (auto last{WhyNotModifiableLast(symbol.name(), symbol, scope)}) {
86124e8e21fSpeter klausler return last;
86224e8e21fSpeter klausler } else if (!IsPointer(symbol)) {
863625dedc3SPeter Klausler return WhyNotModifiableIfNoPtr(symbol.name(), symbol, scope);
86424e8e21fSpeter klausler } else {
86524e8e21fSpeter klausler return std::nullopt;
86624e8e21fSpeter klausler }
86724e8e21fSpeter klausler }
86824e8e21fSpeter klausler
86924e8e21fSpeter klausler // Modifiability checks for a data-ref
WhyNotModifiable(parser::CharBlock at,const SomeExpr & expr,const Scope & scope,bool vectorSubscriptIsOk)8702cc21cecSTim Keith std::optional<parser::Message> WhyNotModifiable(parser::CharBlock at,
87164ab3302SCarolineConcatto const SomeExpr &expr, const Scope &scope, bool vectorSubscriptIsOk) {
872bbd0dc3dSpeter klausler if (auto dataRef{evaluate::ExtractDataRef(expr, true)}) {
87364ab3302SCarolineConcatto if (!vectorSubscriptIsOk && evaluate::HasVectorSubscript(expr)) {
8742cc21cecSTim Keith return parser::Message{at, "Variable has a vector subscript"_en_US};
8752cc21cecSTim Keith }
87624e8e21fSpeter klausler const Symbol &first{GetAssociationRoot(dataRef->GetFirstSymbol())};
877625dedc3SPeter Klausler if (auto maybeWhyFirst{WhyNotModifiableFirst(at, first, scope)}) {
878625dedc3SPeter Klausler return maybeWhyFirst;
87924e8e21fSpeter klausler }
88024e8e21fSpeter klausler const Symbol &last{dataRef->GetLastSymbol()};
881625dedc3SPeter Klausler if (auto maybeWhyLast{WhyNotModifiableLast(at, last, scope)}) {
882625dedc3SPeter Klausler return maybeWhyLast;
88324e8e21fSpeter klausler }
88424e8e21fSpeter klausler if (!GetLastPointerSymbol(*dataRef)) {
885625dedc3SPeter Klausler if (auto maybeWhyFirst{WhyNotModifiableIfNoPtr(at, first, scope)}) {
886625dedc3SPeter Klausler return maybeWhyFirst;
88724e8e21fSpeter klausler }
88864ab3302SCarolineConcatto }
889bbd0dc3dSpeter klausler } else if (!evaluate::IsVariable(expr)) {
890bbd0dc3dSpeter klausler return parser::Message{
891bbd0dc3dSpeter klausler at, "'%s' is not a variable"_en_US, expr.AsFortran()};
89264ab3302SCarolineConcatto } else {
89364ab3302SCarolineConcatto // reference to function returning POINTER
89464ab3302SCarolineConcatto }
8952cc21cecSTim Keith return std::nullopt;
89664ab3302SCarolineConcatto }
89764ab3302SCarolineConcatto
89864ab3302SCarolineConcatto class ImageControlStmtHelper {
899eb6cd7feSPeter Klausler using ImageControlStmts =
900eb6cd7feSPeter Klausler std::variant<parser::ChangeTeamConstruct, parser::CriticalConstruct,
901eb6cd7feSPeter Klausler parser::EventPostStmt, parser::EventWaitStmt, parser::FormTeamStmt,
902eb6cd7feSPeter Klausler parser::LockStmt, parser::SyncAllStmt, parser::SyncImagesStmt,
903eb6cd7feSPeter Klausler parser::SyncMemoryStmt, parser::SyncTeamStmt, parser::UnlockStmt>;
90464ab3302SCarolineConcatto
90564ab3302SCarolineConcatto public:
operator ()(const T &)90664ab3302SCarolineConcatto template <typename T> bool operator()(const T &) {
90764ab3302SCarolineConcatto return common::HasMember<T, ImageControlStmts>;
90864ab3302SCarolineConcatto }
operator ()(const common::Indirection<T> & x)90964ab3302SCarolineConcatto template <typename T> bool operator()(const common::Indirection<T> &x) {
91064ab3302SCarolineConcatto return (*this)(x.value());
91164ab3302SCarolineConcatto }
operator ()(const parser::AllocateStmt & stmt)91264ab3302SCarolineConcatto bool operator()(const parser::AllocateStmt &stmt) {
91364ab3302SCarolineConcatto const auto &allocationList{std::get<std::list<parser::Allocation>>(stmt.t)};
91464ab3302SCarolineConcatto for (const auto &allocation : allocationList) {
91564ab3302SCarolineConcatto const auto &allocateObject{
91664ab3302SCarolineConcatto std::get<parser::AllocateObject>(allocation.t)};
91764ab3302SCarolineConcatto if (IsCoarrayObject(allocateObject)) {
91864ab3302SCarolineConcatto return true;
91964ab3302SCarolineConcatto }
92064ab3302SCarolineConcatto }
92164ab3302SCarolineConcatto return false;
92264ab3302SCarolineConcatto }
operator ()(const parser::DeallocateStmt & stmt)92364ab3302SCarolineConcatto bool operator()(const parser::DeallocateStmt &stmt) {
92464ab3302SCarolineConcatto const auto &allocateObjectList{
92564ab3302SCarolineConcatto std::get<std::list<parser::AllocateObject>>(stmt.t)};
92664ab3302SCarolineConcatto for (const auto &allocateObject : allocateObjectList) {
92764ab3302SCarolineConcatto if (IsCoarrayObject(allocateObject)) {
92864ab3302SCarolineConcatto return true;
92964ab3302SCarolineConcatto }
93064ab3302SCarolineConcatto }
93164ab3302SCarolineConcatto return false;
93264ab3302SCarolineConcatto }
operator ()(const parser::CallStmt & stmt)93364ab3302SCarolineConcatto bool operator()(const parser::CallStmt &stmt) {
93464ab3302SCarolineConcatto const auto &procedureDesignator{
93564ab3302SCarolineConcatto std::get<parser::ProcedureDesignator>(stmt.v.t)};
93664ab3302SCarolineConcatto if (auto *name{std::get_if<parser::Name>(&procedureDesignator.u)}) {
93764ab3302SCarolineConcatto // TODO: also ensure that the procedure is, in fact, an intrinsic
93864ab3302SCarolineConcatto if (name->source == "move_alloc") {
93964ab3302SCarolineConcatto const auto &args{std::get<std::list<parser::ActualArgSpec>>(stmt.v.t)};
94064ab3302SCarolineConcatto if (!args.empty()) {
94164ab3302SCarolineConcatto const parser::ActualArg &actualArg{
94264ab3302SCarolineConcatto std::get<parser::ActualArg>(args.front().t)};
94364ab3302SCarolineConcatto if (const auto *argExpr{
94464ab3302SCarolineConcatto std::get_if<common::Indirection<parser::Expr>>(
94564ab3302SCarolineConcatto &actualArg.u)}) {
94664ab3302SCarolineConcatto return HasCoarray(argExpr->value());
94764ab3302SCarolineConcatto }
94864ab3302SCarolineConcatto }
94964ab3302SCarolineConcatto }
95064ab3302SCarolineConcatto }
95164ab3302SCarolineConcatto return false;
95264ab3302SCarolineConcatto }
operator ()(const parser::StopStmt & stmt)953eb6cd7feSPeter Klausler bool operator()(const parser::StopStmt &stmt) {
954eb6cd7feSPeter Klausler // STOP is an image control statement; ERROR STOP is not
955eb6cd7feSPeter Klausler return std::get<parser::StopStmt::Kind>(stmt.t) ==
956eb6cd7feSPeter Klausler parser::StopStmt::Kind::Stop;
957eb6cd7feSPeter Klausler }
operator ()(const parser::Statement<parser::ActionStmt> & stmt)95864ab3302SCarolineConcatto bool operator()(const parser::Statement<parser::ActionStmt> &stmt) {
959cd03e96fSPeter Klausler return common::visit(*this, stmt.statement.u);
96064ab3302SCarolineConcatto }
96164ab3302SCarolineConcatto
96264ab3302SCarolineConcatto private:
IsCoarrayObject(const parser::AllocateObject & allocateObject)96364ab3302SCarolineConcatto bool IsCoarrayObject(const parser::AllocateObject &allocateObject) {
96464ab3302SCarolineConcatto const parser::Name &name{GetLastName(allocateObject)};
9651ee6f7adSPeter Klausler return name.symbol && evaluate::IsCoarray(*name.symbol);
96664ab3302SCarolineConcatto }
96764ab3302SCarolineConcatto };
96864ab3302SCarolineConcatto
IsImageControlStmt(const parser::ExecutableConstruct & construct)96964ab3302SCarolineConcatto bool IsImageControlStmt(const parser::ExecutableConstruct &construct) {
970cd03e96fSPeter Klausler return common::visit(ImageControlStmtHelper{}, construct.u);
97164ab3302SCarolineConcatto }
97264ab3302SCarolineConcatto
GetImageControlStmtCoarrayMsg(const parser::ExecutableConstruct & construct)97364ab3302SCarolineConcatto std::optional<parser::MessageFixedText> GetImageControlStmtCoarrayMsg(
97464ab3302SCarolineConcatto const parser::ExecutableConstruct &construct) {
97564ab3302SCarolineConcatto if (const auto *actionStmt{
97664ab3302SCarolineConcatto std::get_if<parser::Statement<parser::ActionStmt>>(&construct.u)}) {
977cd03e96fSPeter Klausler return common::visit(
97864ab3302SCarolineConcatto common::visitors{
97964ab3302SCarolineConcatto [](const common::Indirection<parser::AllocateStmt> &)
98064ab3302SCarolineConcatto -> std::optional<parser::MessageFixedText> {
98164ab3302SCarolineConcatto return "ALLOCATE of a coarray is an image control"
98264ab3302SCarolineConcatto " statement"_en_US;
98364ab3302SCarolineConcatto },
98464ab3302SCarolineConcatto [](const common::Indirection<parser::DeallocateStmt> &)
98564ab3302SCarolineConcatto -> std::optional<parser::MessageFixedText> {
98664ab3302SCarolineConcatto return "DEALLOCATE of a coarray is an image control"
98764ab3302SCarolineConcatto " statement"_en_US;
98864ab3302SCarolineConcatto },
98964ab3302SCarolineConcatto [](const common::Indirection<parser::CallStmt> &)
99064ab3302SCarolineConcatto -> std::optional<parser::MessageFixedText> {
99164ab3302SCarolineConcatto return "MOVE_ALLOC of a coarray is an image control"
99264ab3302SCarolineConcatto " statement "_en_US;
99364ab3302SCarolineConcatto },
99464ab3302SCarolineConcatto [](const auto &) -> std::optional<parser::MessageFixedText> {
99564ab3302SCarolineConcatto return std::nullopt;
99664ab3302SCarolineConcatto },
99764ab3302SCarolineConcatto },
99864ab3302SCarolineConcatto actionStmt->statement.u);
99964ab3302SCarolineConcatto }
100064ab3302SCarolineConcatto return std::nullopt;
100164ab3302SCarolineConcatto }
100264ab3302SCarolineConcatto
GetImageControlStmtLocation(const parser::ExecutableConstruct & executableConstruct)100364ab3302SCarolineConcatto parser::CharBlock GetImageControlStmtLocation(
100464ab3302SCarolineConcatto const parser::ExecutableConstruct &executableConstruct) {
1005cd03e96fSPeter Klausler return common::visit(
100664ab3302SCarolineConcatto common::visitors{
100764ab3302SCarolineConcatto [](const common::Indirection<parser::ChangeTeamConstruct>
100864ab3302SCarolineConcatto &construct) {
100964ab3302SCarolineConcatto return std::get<parser::Statement<parser::ChangeTeamStmt>>(
101064ab3302SCarolineConcatto construct.value().t)
101164ab3302SCarolineConcatto .source;
101264ab3302SCarolineConcatto },
101364ab3302SCarolineConcatto [](const common::Indirection<parser::CriticalConstruct> &construct) {
101464ab3302SCarolineConcatto return std::get<parser::Statement<parser::CriticalStmt>>(
101564ab3302SCarolineConcatto construct.value().t)
101664ab3302SCarolineConcatto .source;
101764ab3302SCarolineConcatto },
101864ab3302SCarolineConcatto [](const parser::Statement<parser::ActionStmt> &actionStmt) {
101964ab3302SCarolineConcatto return actionStmt.source;
102064ab3302SCarolineConcatto },
102164ab3302SCarolineConcatto [](const auto &) { return parser::CharBlock{}; },
102264ab3302SCarolineConcatto },
102364ab3302SCarolineConcatto executableConstruct.u);
102464ab3302SCarolineConcatto }
102564ab3302SCarolineConcatto
HasCoarray(const parser::Expr & expression)102664ab3302SCarolineConcatto bool HasCoarray(const parser::Expr &expression) {
10277e225423SPeter Klausler if (const auto *expr{GetExpr(nullptr, expression)}) {
102864ab3302SCarolineConcatto for (const Symbol &symbol : evaluate::CollectSymbols(*expr)) {
10291ee6f7adSPeter Klausler if (evaluate::IsCoarray(symbol)) {
103064ab3302SCarolineConcatto return true;
103164ab3302SCarolineConcatto }
103264ab3302SCarolineConcatto }
103364ab3302SCarolineConcatto }
103464ab3302SCarolineConcatto return false;
103564ab3302SCarolineConcatto }
103664ab3302SCarolineConcatto
IsPolymorphic(const Symbol & symbol)103764ab3302SCarolineConcatto bool IsPolymorphic(const Symbol &symbol) {
103864ab3302SCarolineConcatto if (const DeclTypeSpec * type{symbol.GetType()}) {
103964ab3302SCarolineConcatto return type->IsPolymorphic();
104064ab3302SCarolineConcatto }
104164ab3302SCarolineConcatto return false;
104264ab3302SCarolineConcatto }
104364ab3302SCarolineConcatto
IsPolymorphicAllocatable(const Symbol & symbol)104464ab3302SCarolineConcatto bool IsPolymorphicAllocatable(const Symbol &symbol) {
104564ab3302SCarolineConcatto return IsAllocatable(symbol) && IsPolymorphic(symbol);
104664ab3302SCarolineConcatto }
104764ab3302SCarolineConcatto
CheckAccessibleComponent(const Scope & scope,const Symbol & symbol)104847452b96STim Keith std::optional<parser::MessageFormattedText> CheckAccessibleComponent(
104947452b96STim Keith const Scope &scope, const Symbol &symbol) {
105047452b96STim Keith CHECK(symbol.owner().IsDerivedType()); // symbol must be a component
105147452b96STim Keith if (symbol.attrs().test(Attr::PRIVATE)) {
10521bd083b5Speter klausler if (FindModuleFileContaining(scope)) {
10531bd083b5Speter klausler // Don't enforce component accessibility checks in module files;
10541bd083b5Speter klausler // there may be forward-substituted named constants of derived type
10551bd083b5Speter klausler // whose structure constructors reference private components.
10561bd083b5Speter klausler } else if (const Scope *
10571bd083b5Speter klausler moduleScope{FindModuleContaining(symbol.owner())}) {
10586ab50745STim Keith if (!moduleScope->Contains(scope)) {
105947452b96STim Keith return parser::MessageFormattedText{
106047452b96STim Keith "PRIVATE component '%s' is only accessible within module '%s'"_err_en_US,
106147452b96STim Keith symbol.name(), moduleScope->GetName().value()};
106247452b96STim Keith }
106347452b96STim Keith }
106447452b96STim Keith }
106547452b96STim Keith return std::nullopt;
106647452b96STim Keith }
106747452b96STim Keith
OrderParameterNames(const Symbol & typeSymbol)106864ab3302SCarolineConcatto std::list<SourceName> OrderParameterNames(const Symbol &typeSymbol) {
106964ab3302SCarolineConcatto std::list<SourceName> result;
107064ab3302SCarolineConcatto if (const DerivedTypeSpec * spec{typeSymbol.GetParentTypeSpec()}) {
107164ab3302SCarolineConcatto result = OrderParameterNames(spec->typeSymbol());
107264ab3302SCarolineConcatto }
107364ab3302SCarolineConcatto const auto ¶mNames{typeSymbol.get<DerivedTypeDetails>().paramNames()};
107464ab3302SCarolineConcatto result.insert(result.end(), paramNames.begin(), paramNames.end());
107564ab3302SCarolineConcatto return result;
107664ab3302SCarolineConcatto }
107764ab3302SCarolineConcatto
OrderParameterDeclarations(const Symbol & typeSymbol)107864ab3302SCarolineConcatto SymbolVector OrderParameterDeclarations(const Symbol &typeSymbol) {
107964ab3302SCarolineConcatto SymbolVector result;
108064ab3302SCarolineConcatto if (const DerivedTypeSpec * spec{typeSymbol.GetParentTypeSpec()}) {
108164ab3302SCarolineConcatto result = OrderParameterDeclarations(spec->typeSymbol());
108264ab3302SCarolineConcatto }
108364ab3302SCarolineConcatto const auto ¶mDecls{typeSymbol.get<DerivedTypeDetails>().paramDecls()};
108464ab3302SCarolineConcatto result.insert(result.end(), paramDecls.begin(), paramDecls.end());
108564ab3302SCarolineConcatto return result;
108664ab3302SCarolineConcatto }
108764ab3302SCarolineConcatto
FindOrInstantiateDerivedType(Scope & scope,DerivedTypeSpec && spec,DeclTypeSpec::Category category)10885091671cSpeter klausler const DeclTypeSpec &FindOrInstantiateDerivedType(
10895091671cSpeter klausler Scope &scope, DerivedTypeSpec &&spec, DeclTypeSpec::Category category) {
10905091671cSpeter klausler spec.EvaluateParameters(scope.context());
109164ab3302SCarolineConcatto if (const DeclTypeSpec *
109264ab3302SCarolineConcatto type{scope.FindInstantiatedDerivedType(spec, category)}) {
109364ab3302SCarolineConcatto return *type;
109464ab3302SCarolineConcatto }
109564ab3302SCarolineConcatto // Create a new instantiation of this parameterized derived type
109664ab3302SCarolineConcatto // for this particular distinct set of actual parameter values.
109764ab3302SCarolineConcatto DeclTypeSpec &type{scope.MakeDerivedType(category, std::move(spec))};
10985091671cSpeter klausler type.derivedTypeSpec().Instantiate(scope);
109964ab3302SCarolineConcatto return type;
110064ab3302SCarolineConcatto }
110164ab3302SCarolineConcatto
FindSeparateModuleSubprogramInterface(const Symbol * proc)1102c42f6314Speter klausler const Symbol *FindSeparateModuleSubprogramInterface(const Symbol *proc) {
1103c42f6314Speter klausler if (proc) {
110439686557SPeter Klausler if (const auto *subprogram{proc->detailsIf<SubprogramDetails>()}) {
110539686557SPeter Klausler if (const Symbol * iface{subprogram->moduleInterface()}) {
1106c42f6314Speter klausler return iface;
1107c42f6314Speter klausler }
1108c42f6314Speter klausler }
1109c42f6314Speter klausler }
1110c42f6314Speter klausler return nullptr;
1111c42f6314Speter klausler }
1112c42f6314Speter klausler
ClassifyProcedure(const Symbol & symbol)111337b2e2b0Speter klausler ProcedureDefinitionClass ClassifyProcedure(const Symbol &symbol) { // 15.2.2
111437b2e2b0Speter klausler const Symbol &ultimate{symbol.GetUltimate()};
1115cfd474e0SPeter Klausler if (!IsProcedure(ultimate)) {
1116cfd474e0SPeter Klausler return ProcedureDefinitionClass::None;
1117cfd474e0SPeter Klausler } else if (ultimate.attrs().test(Attr::INTRINSIC)) {
111837b2e2b0Speter klausler return ProcedureDefinitionClass::Intrinsic;
111937b2e2b0Speter klausler } else if (ultimate.attrs().test(Attr::EXTERNAL)) {
112037b2e2b0Speter klausler return ProcedureDefinitionClass::External;
112137b2e2b0Speter klausler } else if (const auto *procDetails{ultimate.detailsIf<ProcEntityDetails>()}) {
112237b2e2b0Speter klausler if (procDetails->isDummy()) {
112337b2e2b0Speter klausler return ProcedureDefinitionClass::Dummy;
112437b2e2b0Speter klausler } else if (IsPointer(ultimate)) {
112537b2e2b0Speter klausler return ProcedureDefinitionClass::Pointer;
112637b2e2b0Speter klausler }
112737b2e2b0Speter klausler } else if (const Symbol * subp{FindSubprogram(symbol)}) {
112837b2e2b0Speter klausler if (const auto *subpDetails{subp->detailsIf<SubprogramDetails>()}) {
112937b2e2b0Speter klausler if (subpDetails->stmtFunction()) {
113037b2e2b0Speter klausler return ProcedureDefinitionClass::StatementFunction;
113137b2e2b0Speter klausler }
113237b2e2b0Speter klausler }
113337b2e2b0Speter klausler switch (ultimate.owner().kind()) {
113437b2e2b0Speter klausler case Scope::Kind::Global:
113552a1346bSPeter Klausler case Scope::Kind::IntrinsicModules:
113637b2e2b0Speter klausler return ProcedureDefinitionClass::External;
113737b2e2b0Speter klausler case Scope::Kind::Module:
113837b2e2b0Speter klausler return ProcedureDefinitionClass::Module;
113937b2e2b0Speter klausler case Scope::Kind::MainProgram:
114037b2e2b0Speter klausler case Scope::Kind::Subprogram:
114137b2e2b0Speter klausler return ProcedureDefinitionClass::Internal;
114237b2e2b0Speter klausler default:
114337b2e2b0Speter klausler break;
114437b2e2b0Speter klausler }
114537b2e2b0Speter klausler }
114637b2e2b0Speter klausler return ProcedureDefinitionClass::None;
114737b2e2b0Speter klausler }
114837b2e2b0Speter klausler
114964ab3302SCarolineConcatto // ComponentIterator implementation
115064ab3302SCarolineConcatto
115164ab3302SCarolineConcatto template <ComponentKind componentKind>
115264ab3302SCarolineConcatto typename ComponentIterator<componentKind>::const_iterator
Create(const DerivedTypeSpec & derived)115364ab3302SCarolineConcatto ComponentIterator<componentKind>::const_iterator::Create(
115464ab3302SCarolineConcatto const DerivedTypeSpec &derived) {
115564ab3302SCarolineConcatto const_iterator it{};
115664ab3302SCarolineConcatto it.componentPath_.emplace_back(derived);
115764ab3302SCarolineConcatto it.Increment(); // cue up first relevant component, if any
115864ab3302SCarolineConcatto return it;
115964ab3302SCarolineConcatto }
116064ab3302SCarolineConcatto
116164ab3302SCarolineConcatto template <ComponentKind componentKind>
116264ab3302SCarolineConcatto const DerivedTypeSpec *
PlanComponentTraversal(const Symbol & component) const116364ab3302SCarolineConcatto ComponentIterator<componentKind>::const_iterator::PlanComponentTraversal(
116464ab3302SCarolineConcatto const Symbol &component) const {
116564ab3302SCarolineConcatto if (const auto *details{component.detailsIf<ObjectEntityDetails>()}) {
116664ab3302SCarolineConcatto if (const DeclTypeSpec * type{details->type()}) {
116764ab3302SCarolineConcatto if (const auto *derived{type->AsDerived()}) {
116864ab3302SCarolineConcatto bool traverse{false};
116964ab3302SCarolineConcatto if constexpr (componentKind == ComponentKind::Ordered) {
117064ab3302SCarolineConcatto // Order Component (only visit parents)
117164ab3302SCarolineConcatto traverse = component.test(Symbol::Flag::ParentComp);
117264ab3302SCarolineConcatto } else if constexpr (componentKind == ComponentKind::Direct) {
117364ab3302SCarolineConcatto traverse = !IsAllocatableOrPointer(component);
117464ab3302SCarolineConcatto } else if constexpr (componentKind == ComponentKind::Ultimate) {
117564ab3302SCarolineConcatto traverse = !IsAllocatableOrPointer(component);
117664ab3302SCarolineConcatto } else if constexpr (componentKind == ComponentKind::Potential) {
117764ab3302SCarolineConcatto traverse = !IsPointer(component);
117864ab3302SCarolineConcatto } else if constexpr (componentKind == ComponentKind::Scope) {
117964ab3302SCarolineConcatto traverse = !IsAllocatableOrPointer(component);
118064ab3302SCarolineConcatto }
118164ab3302SCarolineConcatto if (traverse) {
118264ab3302SCarolineConcatto const Symbol &newTypeSymbol{derived->typeSymbol()};
118364ab3302SCarolineConcatto // Avoid infinite loop if the type is already part of the types
118464ab3302SCarolineConcatto // being visited. It is possible to have "loops in type" because
118564ab3302SCarolineConcatto // C744 does not forbid to use not yet declared type for
118664ab3302SCarolineConcatto // ALLOCATABLE or POINTER components.
118764ab3302SCarolineConcatto for (const auto &node : componentPath_) {
118864ab3302SCarolineConcatto if (&newTypeSymbol == &node.GetTypeSymbol()) {
118964ab3302SCarolineConcatto return nullptr;
119064ab3302SCarolineConcatto }
119164ab3302SCarolineConcatto }
119264ab3302SCarolineConcatto return derived;
119364ab3302SCarolineConcatto }
119464ab3302SCarolineConcatto }
119564ab3302SCarolineConcatto } // intrinsic & unlimited polymorphic not traversable
119664ab3302SCarolineConcatto }
119764ab3302SCarolineConcatto return nullptr;
119864ab3302SCarolineConcatto }
119964ab3302SCarolineConcatto
120064ab3302SCarolineConcatto template <ComponentKind componentKind>
StopAtComponentPre(const Symbol & component)120164ab3302SCarolineConcatto static bool StopAtComponentPre(const Symbol &component) {
120264ab3302SCarolineConcatto if constexpr (componentKind == ComponentKind::Ordered) {
120364ab3302SCarolineConcatto // Parent components need to be iterated upon after their
120464ab3302SCarolineConcatto // sub-components in structure constructor analysis.
120564ab3302SCarolineConcatto return !component.test(Symbol::Flag::ParentComp);
120664ab3302SCarolineConcatto } else if constexpr (componentKind == ComponentKind::Direct) {
120764ab3302SCarolineConcatto return true;
120864ab3302SCarolineConcatto } else if constexpr (componentKind == ComponentKind::Ultimate) {
120964ab3302SCarolineConcatto return component.has<ProcEntityDetails>() ||
121064ab3302SCarolineConcatto IsAllocatableOrPointer(component) ||
121164ab3302SCarolineConcatto (component.get<ObjectEntityDetails>().type() &&
121264ab3302SCarolineConcatto component.get<ObjectEntityDetails>().type()->AsIntrinsic());
121364ab3302SCarolineConcatto } else if constexpr (componentKind == ComponentKind::Potential) {
121464ab3302SCarolineConcatto return !IsPointer(component);
121564ab3302SCarolineConcatto }
121664ab3302SCarolineConcatto }
121764ab3302SCarolineConcatto
121864ab3302SCarolineConcatto template <ComponentKind componentKind>
StopAtComponentPost(const Symbol & component)121964ab3302SCarolineConcatto static bool StopAtComponentPost(const Symbol &component) {
122064ab3302SCarolineConcatto return componentKind == ComponentKind::Ordered &&
122164ab3302SCarolineConcatto component.test(Symbol::Flag::ParentComp);
122264ab3302SCarolineConcatto }
122364ab3302SCarolineConcatto
122464ab3302SCarolineConcatto template <ComponentKind componentKind>
Increment()122564ab3302SCarolineConcatto void ComponentIterator<componentKind>::const_iterator::Increment() {
122664ab3302SCarolineConcatto while (!componentPath_.empty()) {
122764ab3302SCarolineConcatto ComponentPathNode &deepest{componentPath_.back()};
122864ab3302SCarolineConcatto if (deepest.component()) {
122964ab3302SCarolineConcatto if (!deepest.descended()) {
123064ab3302SCarolineConcatto deepest.set_descended(true);
123164ab3302SCarolineConcatto if (const DerivedTypeSpec *
123264ab3302SCarolineConcatto derived{PlanComponentTraversal(*deepest.component())}) {
123364ab3302SCarolineConcatto componentPath_.emplace_back(*derived);
123464ab3302SCarolineConcatto continue;
123564ab3302SCarolineConcatto }
123664ab3302SCarolineConcatto } else if (!deepest.visited()) {
123764ab3302SCarolineConcatto deepest.set_visited(true);
123864ab3302SCarolineConcatto return; // this is the next component to visit, after descending
123964ab3302SCarolineConcatto }
124064ab3302SCarolineConcatto }
124164ab3302SCarolineConcatto auto &nameIterator{deepest.nameIterator()};
124264ab3302SCarolineConcatto if (nameIterator == deepest.nameEnd()) {
124364ab3302SCarolineConcatto componentPath_.pop_back();
124464ab3302SCarolineConcatto } else if constexpr (componentKind == ComponentKind::Scope) {
124564ab3302SCarolineConcatto deepest.set_component(*nameIterator++->second);
124664ab3302SCarolineConcatto deepest.set_descended(false);
124764ab3302SCarolineConcatto deepest.set_visited(true);
124864ab3302SCarolineConcatto return; // this is the next component to visit, before descending
124964ab3302SCarolineConcatto } else {
125064ab3302SCarolineConcatto const Scope &scope{deepest.GetScope()};
125164ab3302SCarolineConcatto auto scopeIter{scope.find(*nameIterator++)};
125264ab3302SCarolineConcatto if (scopeIter != scope.cend()) {
125364ab3302SCarolineConcatto const Symbol &component{*scopeIter->second};
125464ab3302SCarolineConcatto deepest.set_component(component);
125564ab3302SCarolineConcatto deepest.set_descended(false);
125664ab3302SCarolineConcatto if (StopAtComponentPre<componentKind>(component)) {
125764ab3302SCarolineConcatto deepest.set_visited(true);
125864ab3302SCarolineConcatto return; // this is the next component to visit, before descending
125964ab3302SCarolineConcatto } else {
126064ab3302SCarolineConcatto deepest.set_visited(!StopAtComponentPost<componentKind>(component));
126164ab3302SCarolineConcatto }
126264ab3302SCarolineConcatto }
126364ab3302SCarolineConcatto }
126464ab3302SCarolineConcatto }
126564ab3302SCarolineConcatto }
126664ab3302SCarolineConcatto
126764ab3302SCarolineConcatto template <ComponentKind componentKind>
126864ab3302SCarolineConcatto std::string
BuildResultDesignatorName() const126964ab3302SCarolineConcatto ComponentIterator<componentKind>::const_iterator::BuildResultDesignatorName()
127064ab3302SCarolineConcatto const {
127164ab3302SCarolineConcatto std::string designator{""};
127264ab3302SCarolineConcatto for (const auto &node : componentPath_) {
127364ab3302SCarolineConcatto designator += "%" + DEREF(node.component()).name().ToString();
127464ab3302SCarolineConcatto }
127564ab3302SCarolineConcatto return designator;
127664ab3302SCarolineConcatto }
127764ab3302SCarolineConcatto
127864ab3302SCarolineConcatto template class ComponentIterator<ComponentKind::Ordered>;
127964ab3302SCarolineConcatto template class ComponentIterator<ComponentKind::Direct>;
128064ab3302SCarolineConcatto template class ComponentIterator<ComponentKind::Ultimate>;
128164ab3302SCarolineConcatto template class ComponentIterator<ComponentKind::Potential>;
128264ab3302SCarolineConcatto template class ComponentIterator<ComponentKind::Scope>;
128364ab3302SCarolineConcatto
FindCoarrayUltimateComponent(const DerivedTypeSpec & derived)128464ab3302SCarolineConcatto UltimateComponentIterator::const_iterator FindCoarrayUltimateComponent(
128564ab3302SCarolineConcatto const DerivedTypeSpec &derived) {
128664ab3302SCarolineConcatto UltimateComponentIterator ultimates{derived};
12871ee6f7adSPeter Klausler return std::find_if(ultimates.begin(), ultimates.end(),
12881ee6f7adSPeter Klausler [](const Symbol &symbol) { return evaluate::IsCoarray(symbol); });
128964ab3302SCarolineConcatto }
129064ab3302SCarolineConcatto
FindPointerUltimateComponent(const DerivedTypeSpec & derived)129164ab3302SCarolineConcatto UltimateComponentIterator::const_iterator FindPointerUltimateComponent(
129264ab3302SCarolineConcatto const DerivedTypeSpec &derived) {
129364ab3302SCarolineConcatto UltimateComponentIterator ultimates{derived};
129464ab3302SCarolineConcatto return std::find_if(ultimates.begin(), ultimates.end(), IsPointer);
129564ab3302SCarolineConcatto }
129664ab3302SCarolineConcatto
FindEventOrLockPotentialComponent(const DerivedTypeSpec & derived)129764ab3302SCarolineConcatto PotentialComponentIterator::const_iterator FindEventOrLockPotentialComponent(
129864ab3302SCarolineConcatto const DerivedTypeSpec &derived) {
129964ab3302SCarolineConcatto PotentialComponentIterator potentials{derived};
130064ab3302SCarolineConcatto return std::find_if(
130164ab3302SCarolineConcatto potentials.begin(), potentials.end(), [](const Symbol &component) {
130264ab3302SCarolineConcatto if (const auto *details{component.detailsIf<ObjectEntityDetails>()}) {
130364ab3302SCarolineConcatto const DeclTypeSpec *type{details->type()};
130464ab3302SCarolineConcatto return type && IsEventTypeOrLockType(type->AsDerived());
130564ab3302SCarolineConcatto }
130664ab3302SCarolineConcatto return false;
130764ab3302SCarolineConcatto });
130864ab3302SCarolineConcatto }
130964ab3302SCarolineConcatto
FindAllocatableUltimateComponent(const DerivedTypeSpec & derived)131064ab3302SCarolineConcatto UltimateComponentIterator::const_iterator FindAllocatableUltimateComponent(
131164ab3302SCarolineConcatto const DerivedTypeSpec &derived) {
131264ab3302SCarolineConcatto UltimateComponentIterator ultimates{derived};
131364ab3302SCarolineConcatto return std::find_if(ultimates.begin(), ultimates.end(), IsAllocatable);
131464ab3302SCarolineConcatto }
131564ab3302SCarolineConcatto
FindAllocatableOrPointerDirectComponent(const DerivedTypeSpec & derived)131619d86426SPeter Klausler DirectComponentIterator::const_iterator FindAllocatableOrPointerDirectComponent(
131719d86426SPeter Klausler const DerivedTypeSpec &derived) {
131819d86426SPeter Klausler DirectComponentIterator directs{derived};
131919d86426SPeter Klausler return std::find_if(directs.begin(), directs.end(), IsAllocatableOrPointer);
132019d86426SPeter Klausler }
132119d86426SPeter Klausler
132264ab3302SCarolineConcatto UltimateComponentIterator::const_iterator
FindPolymorphicAllocatableUltimateComponent(const DerivedTypeSpec & derived)132364ab3302SCarolineConcatto FindPolymorphicAllocatableUltimateComponent(const DerivedTypeSpec &derived) {
132464ab3302SCarolineConcatto UltimateComponentIterator ultimates{derived};
132564ab3302SCarolineConcatto return std::find_if(
132664ab3302SCarolineConcatto ultimates.begin(), ultimates.end(), IsPolymorphicAllocatable);
132764ab3302SCarolineConcatto }
132864ab3302SCarolineConcatto
132964ab3302SCarolineConcatto UltimateComponentIterator::const_iterator
FindPolymorphicAllocatableNonCoarrayUltimateComponent(const DerivedTypeSpec & derived)133064ab3302SCarolineConcatto FindPolymorphicAllocatableNonCoarrayUltimateComponent(
133164ab3302SCarolineConcatto const DerivedTypeSpec &derived) {
133264ab3302SCarolineConcatto UltimateComponentIterator ultimates{derived};
133364ab3302SCarolineConcatto return std::find_if(ultimates.begin(), ultimates.end(), [](const Symbol &x) {
13341ee6f7adSPeter Klausler return IsPolymorphicAllocatable(x) && !evaluate::IsCoarray(x);
133564ab3302SCarolineConcatto });
133664ab3302SCarolineConcatto }
133764ab3302SCarolineConcatto
FindUltimateComponent(const DerivedTypeSpec & derived,const std::function<bool (const Symbol &)> & predicate)133864ab3302SCarolineConcatto const Symbol *FindUltimateComponent(const DerivedTypeSpec &derived,
133964ab3302SCarolineConcatto const std::function<bool(const Symbol &)> &predicate) {
134064ab3302SCarolineConcatto UltimateComponentIterator ultimates{derived};
134164ab3302SCarolineConcatto if (auto it{std::find_if(ultimates.begin(), ultimates.end(),
134264ab3302SCarolineConcatto [&predicate](const Symbol &component) -> bool {
134364ab3302SCarolineConcatto return predicate(component);
134464ab3302SCarolineConcatto })}) {
134564ab3302SCarolineConcatto return &*it;
134664ab3302SCarolineConcatto }
134764ab3302SCarolineConcatto return nullptr;
134864ab3302SCarolineConcatto }
134964ab3302SCarolineConcatto
FindUltimateComponent(const Symbol & symbol,const std::function<bool (const Symbol &)> & predicate)135064ab3302SCarolineConcatto const Symbol *FindUltimateComponent(const Symbol &symbol,
135164ab3302SCarolineConcatto const std::function<bool(const Symbol &)> &predicate) {
135264ab3302SCarolineConcatto if (predicate(symbol)) {
135364ab3302SCarolineConcatto return &symbol;
135464ab3302SCarolineConcatto } else if (const auto *object{symbol.detailsIf<ObjectEntityDetails>()}) {
135564ab3302SCarolineConcatto if (const auto *type{object->type()}) {
135664ab3302SCarolineConcatto if (const auto *derived{type->AsDerived()}) {
135764ab3302SCarolineConcatto return FindUltimateComponent(*derived, predicate);
135864ab3302SCarolineConcatto }
135964ab3302SCarolineConcatto }
136064ab3302SCarolineConcatto }
136164ab3302SCarolineConcatto return nullptr;
136264ab3302SCarolineConcatto }
136364ab3302SCarolineConcatto
FindImmediateComponent(const DerivedTypeSpec & type,const std::function<bool (const Symbol &)> & predicate)136464ab3302SCarolineConcatto const Symbol *FindImmediateComponent(const DerivedTypeSpec &type,
136564ab3302SCarolineConcatto const std::function<bool(const Symbol &)> &predicate) {
136664ab3302SCarolineConcatto if (const Scope * scope{type.scope()}) {
136764ab3302SCarolineConcatto const Symbol *parent{nullptr};
136864ab3302SCarolineConcatto for (const auto &pair : *scope) {
136964ab3302SCarolineConcatto const Symbol *symbol{&*pair.second};
137064ab3302SCarolineConcatto if (predicate(*symbol)) {
137164ab3302SCarolineConcatto return symbol;
137264ab3302SCarolineConcatto }
137364ab3302SCarolineConcatto if (symbol->test(Symbol::Flag::ParentComp)) {
137464ab3302SCarolineConcatto parent = symbol;
137564ab3302SCarolineConcatto }
137664ab3302SCarolineConcatto }
137764ab3302SCarolineConcatto if (parent) {
137864ab3302SCarolineConcatto if (const auto *object{parent->detailsIf<ObjectEntityDetails>()}) {
137964ab3302SCarolineConcatto if (const auto *type{object->type()}) {
138064ab3302SCarolineConcatto if (const auto *derived{type->AsDerived()}) {
138164ab3302SCarolineConcatto return FindImmediateComponent(*derived, predicate);
138264ab3302SCarolineConcatto }
138364ab3302SCarolineConcatto }
138464ab3302SCarolineConcatto }
138564ab3302SCarolineConcatto }
138664ab3302SCarolineConcatto }
138764ab3302SCarolineConcatto return nullptr;
138864ab3302SCarolineConcatto }
138964ab3302SCarolineConcatto
IsFunctionResultWithSameNameAsFunction(const Symbol & symbol)1390a5679615SPeter Klausler const Symbol *IsFunctionResultWithSameNameAsFunction(const Symbol &symbol) {
139164ab3302SCarolineConcatto if (IsFunctionResult(symbol)) {
139264ab3302SCarolineConcatto if (const Symbol * function{symbol.owner().symbol()}) {
1393a5679615SPeter Klausler if (symbol.name() == function->name()) {
1394a5679615SPeter Klausler return function;
139564ab3302SCarolineConcatto }
139664ab3302SCarolineConcatto }
13977f680b26SPeter Klausler // Check ENTRY result symbols too
13987f680b26SPeter Klausler const Scope &outer{symbol.owner().parent()};
13997f680b26SPeter Klausler auto iter{outer.find(symbol.name())};
14007f680b26SPeter Klausler if (iter != outer.end()) {
14017f680b26SPeter Klausler const Symbol &outerSym{*iter->second};
14027f680b26SPeter Klausler if (const auto *subp{outerSym.detailsIf<SubprogramDetails>()}) {
14037f680b26SPeter Klausler if (subp->entryScope() == &symbol.owner() &&
14047f680b26SPeter Klausler symbol.name() == outerSym.name()) {
14057f680b26SPeter Klausler return &outerSym;
14067f680b26SPeter Klausler }
14077f680b26SPeter Klausler }
14087f680b26SPeter Klausler }
1409a5679615SPeter Klausler }
1410a5679615SPeter Klausler return nullptr;
141164ab3302SCarolineConcatto }
141264ab3302SCarolineConcatto
Post(const parser::GotoStmt & gotoStmt)141364ab3302SCarolineConcatto void LabelEnforce::Post(const parser::GotoStmt &gotoStmt) {
141464ab3302SCarolineConcatto checkLabelUse(gotoStmt.v);
141564ab3302SCarolineConcatto }
Post(const parser::ComputedGotoStmt & computedGotoStmt)141664ab3302SCarolineConcatto void LabelEnforce::Post(const parser::ComputedGotoStmt &computedGotoStmt) {
141764ab3302SCarolineConcatto for (auto &i : std::get<std::list<parser::Label>>(computedGotoStmt.t)) {
141864ab3302SCarolineConcatto checkLabelUse(i);
141964ab3302SCarolineConcatto }
142064ab3302SCarolineConcatto }
142164ab3302SCarolineConcatto
Post(const parser::ArithmeticIfStmt & arithmeticIfStmt)142264ab3302SCarolineConcatto void LabelEnforce::Post(const parser::ArithmeticIfStmt &arithmeticIfStmt) {
142364ab3302SCarolineConcatto checkLabelUse(std::get<1>(arithmeticIfStmt.t));
142464ab3302SCarolineConcatto checkLabelUse(std::get<2>(arithmeticIfStmt.t));
142564ab3302SCarolineConcatto checkLabelUse(std::get<3>(arithmeticIfStmt.t));
142664ab3302SCarolineConcatto }
142764ab3302SCarolineConcatto
Post(const parser::AssignStmt & assignStmt)142864ab3302SCarolineConcatto void LabelEnforce::Post(const parser::AssignStmt &assignStmt) {
142964ab3302SCarolineConcatto checkLabelUse(std::get<parser::Label>(assignStmt.t));
143064ab3302SCarolineConcatto }
143164ab3302SCarolineConcatto
Post(const parser::AssignedGotoStmt & assignedGotoStmt)143264ab3302SCarolineConcatto void LabelEnforce::Post(const parser::AssignedGotoStmt &assignedGotoStmt) {
143364ab3302SCarolineConcatto for (auto &i : std::get<std::list<parser::Label>>(assignedGotoStmt.t)) {
143464ab3302SCarolineConcatto checkLabelUse(i);
143564ab3302SCarolineConcatto }
143664ab3302SCarolineConcatto }
143764ab3302SCarolineConcatto
Post(const parser::AltReturnSpec & altReturnSpec)143864ab3302SCarolineConcatto void LabelEnforce::Post(const parser::AltReturnSpec &altReturnSpec) {
143964ab3302SCarolineConcatto checkLabelUse(altReturnSpec.v);
144064ab3302SCarolineConcatto }
144164ab3302SCarolineConcatto
Post(const parser::ErrLabel & errLabel)144264ab3302SCarolineConcatto void LabelEnforce::Post(const parser::ErrLabel &errLabel) {
144364ab3302SCarolineConcatto checkLabelUse(errLabel.v);
144464ab3302SCarolineConcatto }
Post(const parser::EndLabel & endLabel)144564ab3302SCarolineConcatto void LabelEnforce::Post(const parser::EndLabel &endLabel) {
144664ab3302SCarolineConcatto checkLabelUse(endLabel.v);
144764ab3302SCarolineConcatto }
Post(const parser::EorLabel & eorLabel)144864ab3302SCarolineConcatto void LabelEnforce::Post(const parser::EorLabel &eorLabel) {
144964ab3302SCarolineConcatto checkLabelUse(eorLabel.v);
145064ab3302SCarolineConcatto }
145164ab3302SCarolineConcatto
checkLabelUse(const parser::Label & labelUsed)145264ab3302SCarolineConcatto void LabelEnforce::checkLabelUse(const parser::Label &labelUsed) {
145364ab3302SCarolineConcatto if (labels_.find(labelUsed) == labels_.end()) {
145464ab3302SCarolineConcatto SayWithConstruct(context_, currentStatementSourcePosition_,
145564ab3302SCarolineConcatto parser::MessageFormattedText{
145664ab3302SCarolineConcatto "Control flow escapes from %s"_err_en_US, construct_},
145764ab3302SCarolineConcatto constructSourcePosition_);
145864ab3302SCarolineConcatto }
145964ab3302SCarolineConcatto }
146064ab3302SCarolineConcatto
GetEnclosingConstructMsg()146164ab3302SCarolineConcatto parser::MessageFormattedText LabelEnforce::GetEnclosingConstructMsg() {
146264ab3302SCarolineConcatto return {"Enclosing %s statement"_en_US, construct_};
146364ab3302SCarolineConcatto }
146464ab3302SCarolineConcatto
SayWithConstruct(SemanticsContext & context,parser::CharBlock stmtLocation,parser::MessageFormattedText && message,parser::CharBlock constructLocation)146564ab3302SCarolineConcatto void LabelEnforce::SayWithConstruct(SemanticsContext &context,
146664ab3302SCarolineConcatto parser::CharBlock stmtLocation, parser::MessageFormattedText &&message,
146764ab3302SCarolineConcatto parser::CharBlock constructLocation) {
146864ab3302SCarolineConcatto context.Say(stmtLocation, message)
146964ab3302SCarolineConcatto .Attach(constructLocation, GetEnclosingConstructMsg());
147064ab3302SCarolineConcatto }
14718d0c3c05SPete Steinfeld
HasAlternateReturns(const Symbol & subprogram)147205756e69STim Keith bool HasAlternateReturns(const Symbol &subprogram) {
147305756e69STim Keith for (const auto *dummyArg : subprogram.get<SubprogramDetails>().dummyArgs()) {
147405756e69STim Keith if (!dummyArg) {
147505756e69STim Keith return true;
147605756e69STim Keith }
147705756e69STim Keith }
147805756e69STim Keith return false;
147905756e69STim Keith }
148005756e69STim Keith
InCommonBlock(const Symbol & symbol)1481b8bfe358STim Keith bool InCommonBlock(const Symbol &symbol) {
1482b8bfe358STim Keith const auto *details{symbol.detailsIf<ObjectEntityDetails>()};
1483b8bfe358STim Keith return details && details->commonBlock();
1484b8bfe358STim Keith }
1485b8bfe358STim Keith
MaybeGetNodeName(const ConstructNode & construct)14864a51691aSsameeran joshi const std::optional<parser::Name> &MaybeGetNodeName(
14874a51691aSsameeran joshi const ConstructNode &construct) {
1488cd03e96fSPeter Klausler return common::visit(
14894a51691aSsameeran joshi common::visitors{
14904a51691aSsameeran joshi [&](const parser::BlockConstruct *blockConstruct)
14914a51691aSsameeran joshi -> const std::optional<parser::Name> & {
14924a51691aSsameeran joshi return std::get<0>(blockConstruct->t).statement.v;
14934a51691aSsameeran joshi },
14944a51691aSsameeran joshi [&](const auto *a) -> const std::optional<parser::Name> & {
14954a51691aSsameeran joshi return std::get<0>(std::get<0>(a->t).statement.t);
14964a51691aSsameeran joshi },
14974a51691aSsameeran joshi },
14984a51691aSsameeran joshi construct);
14994a51691aSsameeran joshi }
15004a51691aSsameeran joshi
ToArraySpec(evaluate::FoldingContext & context,const evaluate::Shape & shape)1501ebe74d95Speter klausler std::optional<ArraySpec> ToArraySpec(
1502ebe74d95Speter klausler evaluate::FoldingContext &context, const evaluate::Shape &shape) {
1503ebe74d95Speter klausler if (auto extents{evaluate::AsConstantExtents(context, shape)}) {
1504ebe74d95Speter klausler ArraySpec result;
1505ebe74d95Speter klausler for (const auto &extent : *extents) {
1506ebe74d95Speter klausler result.emplace_back(ShapeSpec::MakeExplicit(Bound{extent}));
1507ebe74d95Speter klausler }
1508ebe74d95Speter klausler return {std::move(result)};
1509ebe74d95Speter klausler } else {
1510ebe74d95Speter klausler return std::nullopt;
1511ebe74d95Speter klausler }
1512ebe74d95Speter klausler }
1513ebe74d95Speter klausler
ToArraySpec(evaluate::FoldingContext & context,const std::optional<evaluate::Shape> & shape)1514ebe74d95Speter klausler std::optional<ArraySpec> ToArraySpec(evaluate::FoldingContext &context,
1515ebe74d95Speter klausler const std::optional<evaluate::Shape> &shape) {
1516ebe74d95Speter klausler return shape ? ToArraySpec(context, *shape) : std::nullopt;
1517ebe74d95Speter klausler }
1518ebe74d95Speter klausler
HasDefinedIo(GenericKind::DefinedIo which,const DerivedTypeSpec & derived,const Scope * scope)151919d86426SPeter Klausler bool HasDefinedIo(GenericKind::DefinedIo which, const DerivedTypeSpec &derived,
152019d86426SPeter Klausler const Scope *scope) {
152119d86426SPeter Klausler if (const Scope * dtScope{derived.scope()}) {
152219d86426SPeter Klausler for (const auto &pair : *dtScope) {
152319d86426SPeter Klausler const Symbol &symbol{*pair.second};
152419d86426SPeter Klausler if (const auto *generic{symbol.detailsIf<GenericDetails>()}) {
152519d86426SPeter Klausler GenericKind kind{generic->kind()};
152619d86426SPeter Klausler if (const auto *io{std::get_if<GenericKind::DefinedIo>(&kind.u)}) {
152719d86426SPeter Klausler if (*io == which) {
152819d86426SPeter Klausler return true; // type-bound GENERIC exists
152919d86426SPeter Klausler }
153019d86426SPeter Klausler }
153119d86426SPeter Klausler }
153219d86426SPeter Klausler }
153319d86426SPeter Klausler }
153419d86426SPeter Klausler if (scope) {
153519d86426SPeter Klausler SourceName name{GenericKind::AsFortran(which)};
153619d86426SPeter Klausler evaluate::DynamicType dyDerived{derived};
153719d86426SPeter Klausler for (; scope && !scope->IsGlobal(); scope = &scope->parent()) {
153819d86426SPeter Klausler auto iter{scope->find(name)};
153919d86426SPeter Klausler if (iter != scope->end()) {
154019d86426SPeter Klausler const auto &generic{iter->second->GetUltimate().get<GenericDetails>()};
154119d86426SPeter Klausler for (auto ref : generic.specificProcs()) {
154219d86426SPeter Klausler const Symbol &procSym{ref->GetUltimate()};
154319d86426SPeter Klausler if (const auto *subp{procSym.detailsIf<SubprogramDetails>()}) {
154419d86426SPeter Klausler if (!subp->dummyArgs().empty()) {
154519d86426SPeter Klausler if (const Symbol * first{subp->dummyArgs().at(0)}) {
154619d86426SPeter Klausler if (const DeclTypeSpec * dtSpec{first->GetType()}) {
154719d86426SPeter Klausler if (auto dyDummy{evaluate::DynamicType::From(*dtSpec)}) {
154819d86426SPeter Klausler if (dyDummy->IsTkCompatibleWith(dyDerived)) {
154919d86426SPeter Klausler return true; // GENERIC or INTERFACE not in type
155019d86426SPeter Klausler }
155119d86426SPeter Klausler }
155219d86426SPeter Klausler }
155319d86426SPeter Klausler }
155419d86426SPeter Klausler }
155519d86426SPeter Klausler }
155619d86426SPeter Klausler }
155719d86426SPeter Klausler }
155819d86426SPeter Klausler }
155919d86426SPeter Klausler }
156019d86426SPeter Klausler return false;
156119d86426SPeter Klausler }
156219d86426SPeter Klausler
FindUnsafeIoDirectComponent(GenericKind::DefinedIo which,const DerivedTypeSpec & derived,const Scope * scope)156319d86426SPeter Klausler const Symbol *FindUnsafeIoDirectComponent(GenericKind::DefinedIo which,
156419d86426SPeter Klausler const DerivedTypeSpec &derived, const Scope *scope) {
156519d86426SPeter Klausler if (HasDefinedIo(which, derived, scope)) {
156619d86426SPeter Klausler return nullptr;
156719d86426SPeter Klausler }
156819d86426SPeter Klausler if (const Scope * dtScope{derived.scope()}) {
156919d86426SPeter Klausler for (const auto &pair : *dtScope) {
157019d86426SPeter Klausler const Symbol &symbol{*pair.second};
157119d86426SPeter Klausler if (IsAllocatableOrPointer(symbol)) {
157219d86426SPeter Klausler return &symbol;
157319d86426SPeter Klausler }
157419d86426SPeter Klausler if (const auto *details{symbol.detailsIf<ObjectEntityDetails>()}) {
157519d86426SPeter Klausler if (const DeclTypeSpec * type{details->type()}) {
157619d86426SPeter Klausler if (type->category() == DeclTypeSpec::Category::TypeDerived) {
157719d86426SPeter Klausler if (const Symbol *
157819d86426SPeter Klausler bad{FindUnsafeIoDirectComponent(
157919d86426SPeter Klausler which, type->derivedTypeSpec(), scope)}) {
158019d86426SPeter Klausler return bad;
158119d86426SPeter Klausler }
158219d86426SPeter Klausler }
158319d86426SPeter Klausler }
158419d86426SPeter Klausler }
158519d86426SPeter Klausler }
158619d86426SPeter Klausler }
158719d86426SPeter Klausler return nullptr;
158819d86426SPeter Klausler }
158919d86426SPeter Klausler
159084a099dfSpeter klausler } // namespace Fortran::semantics
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