resolve-labels.cpp 39.4 KB
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//===-- lib/Semantics/resolve-labels.cpp ----------------------------------===//
//
// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
// See https://llvm.org/LICENSE.txt for license information.
// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
//
//===----------------------------------------------------------------------===//

#include "resolve-labels.h"
#include "flang/Common/enum-set.h"
#include "flang/Common/template.h"
#include "flang/Parser/parse-tree-visitor.h"
#include "flang/Semantics/semantics.h"
#include <cctype>
#include <cstdarg>
#include <type_traits>

namespace Fortran::semantics {

using namespace parser::literals;

ENUM_CLASS(
    TargetStatementEnum, Do, Branch, Format, CompatibleDo, CompatibleBranch)
using LabeledStmtClassificationSet =
    common::EnumSet<TargetStatementEnum, TargetStatementEnum_enumSize>;

using IndexList = std::vector<std::pair<parser::CharBlock, parser::CharBlock>>;
// A ProxyForScope is an integral proxy for a Fortran scope. This is required
// because the parse tree does not actually have the scopes required.
using ProxyForScope = unsigned;
struct LabeledStatementInfoTuplePOD {
  ProxyForScope proxyForScope;
  parser::CharBlock parserCharBlock;
  LabeledStmtClassificationSet labeledStmtClassificationSet;
  bool isExecutableConstructEndStmt;
};
using TargetStmtMap = std::map<parser::Label, LabeledStatementInfoTuplePOD>;
struct SourceStatementInfoTuplePOD {
  SourceStatementInfoTuplePOD(const parser::Label &parserLabel,
      const ProxyForScope &proxyForScope,
      const parser::CharBlock &parserCharBlock)
      : parserLabel{parserLabel}, proxyForScope{proxyForScope},
        parserCharBlock{parserCharBlock} {}
  parser::Label parserLabel;
  ProxyForScope proxyForScope;
  parser::CharBlock parserCharBlock;
};
using SourceStmtList = std::vector<SourceStatementInfoTuplePOD>;
enum class Legality { never, always, formerly };

bool HasScope(ProxyForScope scope) { return scope != ProxyForScope{0u}; }

// F18:R1131
template <typename A>
constexpr Legality IsLegalDoTerm(const parser::Statement<A> &) {
  if (std::is_same_v<A, common::Indirection<parser::EndDoStmt>> ||
      std::is_same_v<A, parser::EndDoStmt>) {
    return Legality::always;
  } else if (std::is_same_v<A, parser::EndForallStmt> ||
      std::is_same_v<A, parser::EndWhereStmt>) {
    // Executable construct end statements are also supported as
    // an extension but they need special care because the associated
    // construct create there own scope.
    return Legality::formerly;
  } else {
    return Legality::never;
  }
}

constexpr Legality IsLegalDoTerm(
    const parser::Statement<parser::ActionStmt> &actionStmt) {
  if (std::holds_alternative<parser::ContinueStmt>(actionStmt.statement.u)) {
    // See F08:C816
    return Legality::always;
  } else if (!(std::holds_alternative<
                   common::Indirection<parser::ArithmeticIfStmt>>(
                   actionStmt.statement.u) ||
                 std::holds_alternative<common::Indirection<parser::CycleStmt>>(
                     actionStmt.statement.u) ||
                 std::holds_alternative<common::Indirection<parser::ExitStmt>>(
                     actionStmt.statement.u) ||
                 std::holds_alternative<common::Indirection<parser::StopStmt>>(
                     actionStmt.statement.u) ||
                 std::holds_alternative<common::Indirection<parser::GotoStmt>>(
                     actionStmt.statement.u) ||
                 std::holds_alternative<
                     common::Indirection<parser::ReturnStmt>>(
                     actionStmt.statement.u))) {
    return Legality::formerly;
  } else {
    return Legality::never;
  }
}

template <typename A> constexpr bool IsFormat(const parser::Statement<A> &) {
  return std::is_same_v<A, common::Indirection<parser::FormatStmt>>;
}

template <typename A>
constexpr Legality IsLegalBranchTarget(const parser::Statement<A> &) {
  if (std::is_same_v<A, parser::ActionStmt> ||
      std::is_same_v<A, parser::AssociateStmt> ||
      std::is_same_v<A, parser::EndAssociateStmt> ||
      std::is_same_v<A, parser::IfThenStmt> ||
      std::is_same_v<A, parser::EndIfStmt> ||
      std::is_same_v<A, parser::SelectCaseStmt> ||
      std::is_same_v<A, parser::EndSelectStmt> ||
      std::is_same_v<A, parser::SelectRankStmt> ||
      std::is_same_v<A, parser::SelectTypeStmt> ||
      std::is_same_v<A, common::Indirection<parser::LabelDoStmt>> ||
      std::is_same_v<A, parser::NonLabelDoStmt> ||
      std::is_same_v<A, parser::EndDoStmt> ||
      std::is_same_v<A, common::Indirection<parser::EndDoStmt>> ||
      std::is_same_v<A, parser::BlockStmt> ||
      std::is_same_v<A, parser::EndBlockStmt> ||
      std::is_same_v<A, parser::CriticalStmt> ||
      std::is_same_v<A, parser::EndCriticalStmt> ||
      std::is_same_v<A, parser::ForallConstructStmt> ||
      std::is_same_v<A, parser::ForallStmt> ||
      std::is_same_v<A, parser::WhereConstructStmt> ||
      std::is_same_v<A, parser::EndFunctionStmt> ||
      std::is_same_v<A, parser::EndMpSubprogramStmt> ||
      std::is_same_v<A, parser::EndProgramStmt> ||
      std::is_same_v<A, parser::EndSubroutineStmt>) {
    return Legality::always;
  } else {
    return Legality::never;
  }
}

template <typename A>
constexpr LabeledStmtClassificationSet ConstructBranchTargetFlags(
    const parser::Statement<A> &statement) {
  LabeledStmtClassificationSet labeledStmtClassificationSet{};
  if (IsLegalDoTerm(statement) == Legality::always) {
    labeledStmtClassificationSet.set(TargetStatementEnum::Do);
  } else if (IsLegalDoTerm(statement) == Legality::formerly) {
    labeledStmtClassificationSet.set(TargetStatementEnum::CompatibleDo);
  }
  if (IsLegalBranchTarget(statement) == Legality::always) {
    labeledStmtClassificationSet.set(TargetStatementEnum::Branch);
  } else if (IsLegalBranchTarget(statement) == Legality::formerly) {
    labeledStmtClassificationSet.set(TargetStatementEnum::CompatibleBranch);
  }
  if (IsFormat(statement)) {
    labeledStmtClassificationSet.set(TargetStatementEnum::Format);
  }
  return labeledStmtClassificationSet;
}

static unsigned SayLabel(parser::Label label) {
  return static_cast<unsigned>(label);
}

struct UnitAnalysis {
  UnitAnalysis() { scopeModel.push_back(0); }

  SourceStmtList doStmtSources;
  SourceStmtList formatStmtSources;
  SourceStmtList otherStmtSources;
  SourceStmtList assignStmtSources;
  TargetStmtMap targetStmts;
  std::vector<ProxyForScope> scopeModel;
};

// Some parse tree record for statements simply wrap construct names;
// others include them as tuple components.  Given a statement,
// return a pointer to its name if it has one.
template <typename A>
const parser::CharBlock *GetStmtName(const parser::Statement<A> &stmt) {
  const std::optional<parser::Name> *name{nullptr};
  if constexpr (WrapperTrait<A>) {
    if constexpr (std::is_same_v<decltype(A::v), parser::Name>) {
      return &stmt.statement.v.source;
    } else {
      name = &stmt.statement.v;
    }
  } else if constexpr (std::is_same_v<A, parser::SelectRankStmt> ||
      std::is_same_v<A, parser::SelectTypeStmt>) {
    name = &std::get<0>(stmt.statement.t);
  } else if constexpr (common::HasMember<parser::Name,
                           decltype(stmt.statement.t)>) {
    return &std::get<parser::Name>(stmt.statement.t).source;
  } else {
    name = &std::get<std::optional<parser::Name>>(stmt.statement.t);
  }
  if (name && *name) {
    return &(*name)->source;
  }
  return nullptr;
}

using ExecutableConstructEndStmts = std::tuple<parser::EndIfStmt,
    parser::EndDoStmt, parser::EndSelectStmt, parser::EndChangeTeamStmt,
    parser::EndBlockStmt, parser::EndCriticalStmt, parser::EndAssociateStmt>;

template <typename A>
static constexpr bool IsExecutableConstructEndStmt{
    common::HasMember<A, ExecutableConstructEndStmts>};

class ParseTreeAnalyzer {
public:
  ParseTreeAnalyzer(ParseTreeAnalyzer &&that) = default;
  ParseTreeAnalyzer(SemanticsContext &context) : context_{context} {}

  template <typename A> constexpr bool Pre(const A &) { return true; }
  template <typename A> constexpr void Post(const A &) {}

  template <typename A> bool Pre(const parser::Statement<A> &statement) {
    currentPosition_ = statement.source;
    if (statement.label) {
      auto label{statement.label.value()};
      auto targetFlags{ConstructBranchTargetFlags(statement)};
      if constexpr (std::is_same_v<A, parser::AssociateStmt> ||
          std::is_same_v<A, parser::BlockStmt> ||
          std::is_same_v<A, parser::ChangeTeamStmt> ||
          std::is_same_v<A, parser::CriticalStmt> ||
          std::is_same_v<A, parser::NonLabelDoStmt> ||
          std::is_same_v<A, parser::IfThenStmt> ||
          std::is_same_v<A, parser::SelectCaseStmt> ||
          std::is_same_v<A, parser::SelectRankStmt> ||
          std::is_same_v<A, parser::SelectTypeStmt>) {
        constexpr bool useParent{true};
        AddTargetLabelDefinition(
            useParent, label, targetFlags, IsExecutableConstructEndStmt<A>);
      } else {
        constexpr bool useParent{false};
        AddTargetLabelDefinition(
            useParent, label, targetFlags, IsExecutableConstructEndStmt<A>);
      }
    }
    return true;
  }

  // see 11.1.1
  bool Pre(const parser::ProgramUnit &) { return InitializeNewScopeContext(); }
  bool Pre(const parser::InternalSubprogram &) {
    return InitializeNewScopeContext();
  }
  bool Pre(const parser::ModuleSubprogram &) {
    return InitializeNewScopeContext();
  }
  bool Pre(const parser::AssociateConstruct &associateConstruct) {
    return PushConstructName(associateConstruct);
  }
  bool Pre(const parser::BlockConstruct &blockConstruct) {
    return PushConstructName(blockConstruct);
  }
  bool Pre(const parser::ChangeTeamConstruct &changeTeamConstruct) {
    return PushConstructName(changeTeamConstruct);
  }
  bool Pre(const parser::CriticalConstruct &criticalConstruct) {
    return PushConstructName(criticalConstruct);
  }
  bool Pre(const parser::DoConstruct &doConstruct) {
    return PushConstructName(doConstruct);
  }
  bool Pre(const parser::IfConstruct &ifConstruct) {
    return PushConstructName(ifConstruct);
  }
  bool Pre(const parser::IfConstruct::ElseIfBlock &) {
    return SwitchToNewScope();
  }
  bool Pre(const parser::IfConstruct::ElseBlock &) {
    return SwitchToNewScope();
  }
  bool Pre(const parser::CaseConstruct &caseConstruct) {
    return PushConstructName(caseConstruct);
  }
  bool Pre(const parser::CaseConstruct::Case &) { return SwitchToNewScope(); }
  bool Pre(const parser::SelectRankConstruct &selectRankConstruct) {
    return PushConstructName(selectRankConstruct);
  }
  bool Pre(const parser::SelectRankConstruct::RankCase &) {
    return SwitchToNewScope();
  }
  bool Pre(const parser::SelectTypeConstruct &selectTypeConstruct) {
    return PushConstructName(selectTypeConstruct);
  }
  bool Pre(const parser::SelectTypeConstruct::TypeCase &) {
    return SwitchToNewScope();
  }
  bool Pre(const parser::WhereConstruct &whereConstruct) {
    return PushConstructNameWithoutBlock(whereConstruct);
  }
  bool Pre(const parser::ForallConstruct &forallConstruct) {
    return PushConstructNameWithoutBlock(forallConstruct);
  }

  void Post(const parser::AssociateConstruct &associateConstruct) {
    PopConstructName(associateConstruct);
  }
  void Post(const parser::BlockConstruct &blockConstruct) {
    PopConstructName(blockConstruct);
  }
  void Post(const parser::ChangeTeamConstruct &changeTeamConstruct) {
    PopConstructName(changeTeamConstruct);
  }
  void Post(const parser::CriticalConstruct &criticalConstruct) {
    PopConstructName(criticalConstruct);
  }
  void Post(const parser::DoConstruct &doConstruct) {
    PopConstructName(doConstruct);
  }
  void Post(const parser::IfConstruct &ifConstruct) {
    PopConstructName(ifConstruct);
  }
  void Post(const parser::CaseConstruct &caseConstruct) {
    PopConstructName(caseConstruct);
  }
  void Post(const parser::SelectRankConstruct &selectRankConstruct) {
    PopConstructName(selectRankConstruct);
  }
  void Post(const parser::SelectTypeConstruct &selectTypeConstruct) {
    PopConstructName(selectTypeConstruct);
  }

  void Post(const parser::WhereConstruct &whereConstruct) {
    PopConstructNameWithoutBlock(whereConstruct);
  }
  void Post(const parser::ForallConstruct &forallConstruct) {
    PopConstructNameWithoutBlock(forallConstruct);
  }

  // Checks for missing or mismatching names on various constructs (e.g., IF)
  // and their intermediate or terminal statements that allow optional
  // construct names(e.g., ELSE).  When an optional construct name is present,
  // the construct as a whole must have a name that matches.
  template <typename FIRST, typename CONSTRUCT, typename STMT>
  void CheckOptionalName(const char *constructTag, const CONSTRUCT &a,
      const parser::Statement<STMT> &stmt) {
    if (const parser::CharBlock * name{GetStmtName(stmt)}) {
      const auto &firstStmt{std::get<parser::Statement<FIRST>>(a.t)};
      if (const parser::CharBlock * firstName{GetStmtName(firstStmt)}) {
        if (*firstName != *name) {
          context_
              .Say(*name,
                  parser::MessageFormattedText{
                      "%s name mismatch"_err_en_US, constructTag})
              .Attach(*firstName, "should be"_en_US);
        }
      } else {
        context_
            .Say(*name,
                parser::MessageFormattedText{
                    "%s name not allowed"_err_en_US, constructTag})
            .Attach(firstStmt.source, "in unnamed %s"_en_US, constructTag);
      }
    }
  }

  // C1414
  void Post(const parser::BlockData &blockData) {
    CheckOptionalName<parser::BlockDataStmt>("BLOCK DATA subprogram", blockData,
        std::get<parser::Statement<parser::EndBlockDataStmt>>(blockData.t));
  }

  // C1564
  void Post(const parser::FunctionSubprogram &functionSubprogram) {
    CheckOptionalName<parser::FunctionStmt>("FUNCTION", functionSubprogram,
        std::get<parser::Statement<parser::EndFunctionStmt>>(
            functionSubprogram.t));
  }
  void Post(const parser::InterfaceBlock &interfaceBlock) {
    auto &interfaceStmt{
        std::get<parser::Statement<parser::InterfaceStmt>>(interfaceBlock.t)};
    if (const auto *optionalGenericSpecPointer{
            std::get_if<std::optional<parser::GenericSpec>>(
                &interfaceStmt.statement.u)}) {
      if (*optionalGenericSpecPointer) {
        if (const auto *namePointer{
                std::get_if<parser::Name>(&(*optionalGenericSpecPointer)->u)}) {
          auto &optionalGenericSpec{
              std::get<parser::Statement<parser::EndInterfaceStmt>>(
                  interfaceBlock.t)
                  .statement.v};
          if (optionalGenericSpec) {
            if (const auto *otherPointer{
                    std::get_if<parser::Name>(&optionalGenericSpec->u)}) {
              if (namePointer->source != otherPointer->source) {
                context_
                    .Say(currentPosition_,
                        parser::MessageFormattedText{
                            "INTERFACE generic-name (%s) mismatch"_en_US,
                            namePointer->source})
                    .Attach(interfaceStmt.source, "mismatched INTERFACE"_en_US);
              }
            }
          }
        }
      }
    }
  }

  // C1402
  void Post(const parser::Module &module) {
    CheckOptionalName<parser::ModuleStmt>("MODULE", module,
        std::get<parser::Statement<parser::EndModuleStmt>>(module.t));
  }

  // C1569
  void Post(const parser::SeparateModuleSubprogram &separateModuleSubprogram) {
    CheckOptionalName<parser::MpSubprogramStmt>("MODULE PROCEDURE",
        separateModuleSubprogram,
        std::get<parser::Statement<parser::EndMpSubprogramStmt>>(
            separateModuleSubprogram.t));
  }

  // C1401
  void Post(const parser::MainProgram &mainProgram) {
    if (const parser::CharBlock *
        endName{GetStmtName(std::get<parser::Statement<parser::EndProgramStmt>>(
            mainProgram.t))}) {
      if (const auto &program{
              std::get<std::optional<parser::Statement<parser::ProgramStmt>>>(
                  mainProgram.t)}) {
        if (*endName != program->statement.v.source) {
          context_.Say(*endName, "END PROGRAM name mismatch"_err_en_US)
              .Attach(program->statement.v.source, "should be"_en_US);
        }
      } else {
        context_.Say(*endName,
            parser::MessageFormattedText{
                "END PROGRAM has name without PROGRAM statement"_err_en_US});
      }
    }
  }

  // C1413
  void Post(const parser::Submodule &submodule) {
    CheckOptionalName<parser::SubmoduleStmt>("SUBMODULE", submodule,
        std::get<parser::Statement<parser::EndSubmoduleStmt>>(submodule.t));
  }

  // C1567
  void Post(const parser::SubroutineSubprogram &subroutineSubprogram) {
    CheckOptionalName<parser::SubroutineStmt>("SUBROUTINE",
        subroutineSubprogram,
        std::get<parser::Statement<parser::EndSubroutineStmt>>(
            subroutineSubprogram.t));
  }

  // C739
  void Post(const parser::DerivedTypeDef &derivedTypeDef) {
    CheckOptionalName<parser::DerivedTypeStmt>("derived type definition",
        derivedTypeDef,
        std::get<parser::Statement<parser::EndTypeStmt>>(derivedTypeDef.t));
  }

  void Post(const parser::LabelDoStmt &labelDoStmt) {
    AddLabelReferenceFromDoStmt(std::get<parser::Label>(labelDoStmt.t));
  }
  void Post(const parser::GotoStmt &gotoStmt) { AddLabelReference(gotoStmt.v); }
  void Post(const parser::ComputedGotoStmt &computedGotoStmt) {
    AddLabelReference(std::get<std::list<parser::Label>>(computedGotoStmt.t));
  }
  void Post(const parser::ArithmeticIfStmt &arithmeticIfStmt) {
    AddLabelReference(std::get<1>(arithmeticIfStmt.t));
    AddLabelReference(std::get<2>(arithmeticIfStmt.t));
    AddLabelReference(std::get<3>(arithmeticIfStmt.t));
  }
  void Post(const parser::AssignStmt &assignStmt) {
    AddLabelReferenceFromAssignStmt(std::get<parser::Label>(assignStmt.t));
  }
  void Post(const parser::AssignedGotoStmt &assignedGotoStmt) {
    AddLabelReference(std::get<std::list<parser::Label>>(assignedGotoStmt.t));
  }
  void Post(const parser::AltReturnSpec &altReturnSpec) {
    AddLabelReference(altReturnSpec.v);
  }

  void Post(const parser::ErrLabel &errLabel) { AddLabelReference(errLabel.v); }
  void Post(const parser::EndLabel &endLabel) { AddLabelReference(endLabel.v); }
  void Post(const parser::EorLabel &eorLabel) { AddLabelReference(eorLabel.v); }
  void Post(const parser::Format &format) {
    if (const auto *labelPointer{std::get_if<parser::Label>(&format.u)}) {
      AddLabelReferenceToFormatStmt(*labelPointer);
    }
  }
  void Post(const parser::CycleStmt &cycleStmt) {
    if (cycleStmt.v) {
      CheckLabelContext("CYCLE", cycleStmt.v->source);
    }
  }
  void Post(const parser::ExitStmt &exitStmt) {
    if (exitStmt.v) {
      CheckLabelContext("EXIT", exitStmt.v->source);
    }
  }

  const std::vector<UnitAnalysis> &ProgramUnits() const {
    return programUnits_;
  }
  SemanticsContext &ErrorHandler() { return context_; }

private:
  bool PushSubscope() {
    programUnits_.back().scopeModel.push_back(currentScope_);
    currentScope_ = programUnits_.back().scopeModel.size() - 1;
    return true;
  }
  bool InitializeNewScopeContext() {
    programUnits_.emplace_back(UnitAnalysis{});
    currentScope_ = 0u;
    return PushSubscope();
  }
  void PopScope() {
    currentScope_ = programUnits_.back().scopeModel[currentScope_];
  }
  ProxyForScope ParentScope() {
    return programUnits_.back().scopeModel[currentScope_];
  }
  bool SwitchToNewScope() {
    PopScope();
    return PushSubscope();
  }

  template <typename A> bool PushConstructName(const A &a) {
    const auto &optionalName{std::get<0>(std::get<0>(a.t).statement.t)};
    if (optionalName) {
      constructNames_.emplace_back(optionalName->ToString());
    }
    return PushSubscope();
  }
  bool PushConstructName(const parser::BlockConstruct &blockConstruct) {
    const auto &optionalName{
        std::get<parser::Statement<parser::BlockStmt>>(blockConstruct.t)
            .statement.v};
    if (optionalName) {
      constructNames_.emplace_back(optionalName->ToString());
    }
    return PushSubscope();
  }
  template <typename A> bool PushConstructNameWithoutBlock(const A &a) {
    const auto &optionalName{std::get<0>(std::get<0>(a.t).statement.t)};
    if (optionalName) {
      constructNames_.emplace_back(optionalName->ToString());
    }
    return true;
  }

  template <typename A> void PopConstructNameWithoutBlock(const A &a) {
    CheckName(a);
    PopConstructNameIfPresent(a);
  }
  template <typename A> void PopConstructNameIfPresent(const A &a) {
    const auto &optionalName{std::get<0>(std::get<0>(a.t).statement.t)};
    if (optionalName) {
      constructNames_.pop_back();
    }
  }
  void PopConstructNameIfPresent(const parser::BlockConstruct &blockConstruct) {
    const auto &optionalName{
        std::get<parser::Statement<parser::BlockStmt>>(blockConstruct.t)
            .statement.v};
    if (optionalName) {
      constructNames_.pop_back();
    }
  }

  template <typename A> void PopConstructName(const A &a) {
    CheckName(a);
    PopScope();
    PopConstructNameIfPresent(a);
  }

  template <typename FIRST, typename CASEBLOCK, typename CASE,
      typename CONSTRUCT>
  void CheckSelectNames(const char *tag, const CONSTRUCT &construct) {
    CheckEndName<FIRST, parser::EndSelectStmt>(tag, construct);
    for (const auto &inner : std::get<std::list<CASEBLOCK>>(construct.t)) {
      CheckOptionalName<FIRST>(
          tag, construct, std::get<parser::Statement<CASE>>(inner.t));
    }
  }

  // C1144
  void PopConstructName(const parser::CaseConstruct &caseConstruct) {
    CheckSelectNames<parser::SelectCaseStmt, parser::CaseConstruct::Case,
        parser::CaseStmt>("SELECT CASE", caseConstruct);
    PopScope();
    PopConstructNameIfPresent(caseConstruct);
  }

  // C1154, C1156
  void PopConstructName(
      const parser::SelectRankConstruct &selectRankConstruct) {
    CheckSelectNames<parser::SelectRankStmt,
        parser::SelectRankConstruct::RankCase, parser::SelectRankCaseStmt>(
        "SELECT RANK", selectRankConstruct);
    PopScope();
    PopConstructNameIfPresent(selectRankConstruct);
  }

  // C1165
  void PopConstructName(
      const parser::SelectTypeConstruct &selectTypeConstruct) {
    CheckSelectNames<parser::SelectTypeStmt,
        parser::SelectTypeConstruct::TypeCase, parser::TypeGuardStmt>(
        "SELECT TYPE", selectTypeConstruct);
    PopScope();
    PopConstructNameIfPresent(selectTypeConstruct);
  }

  // Checks for missing or mismatching names on various constructs (e.g., BLOCK)
  // and their END statements.  Both names must be present if either one is.
  template <typename FIRST, typename END, typename CONSTRUCT>
  void CheckEndName(const char *constructTag, const CONSTRUCT &a) {
    const auto &constructStmt{std::get<parser::Statement<FIRST>>(a.t)};
    const auto &endStmt{std::get<parser::Statement<END>>(a.t)};
    const parser::CharBlock *endName{GetStmtName(endStmt)};
    if (const parser::CharBlock * constructName{GetStmtName(constructStmt)}) {
      if (endName) {
        if (*constructName != *endName) {
          context_
              .Say(*endName,
                  parser::MessageFormattedText{
                      "%s construct name mismatch"_err_en_US, constructTag})
              .Attach(*constructName, "should be"_en_US);
        }
      } else {
        context_
            .Say(endStmt.source,
                parser::MessageFormattedText{
                    "%s construct name required but missing"_err_en_US,
                    constructTag})
            .Attach(*constructName, "should be"_en_US);
      }
    } else if (endName) {
      context_
          .Say(*endName,
              parser::MessageFormattedText{
                  "%s construct name unexpected"_err_en_US, constructTag})
          .Attach(
              constructStmt.source, "unnamed %s statement"_en_US, constructTag);
    }
  }

  // C1106
  void CheckName(const parser::AssociateConstruct &associateConstruct) {
    CheckEndName<parser::AssociateStmt, parser::EndAssociateStmt>(
        "ASSOCIATE", associateConstruct);
  }
  // C1117
  void CheckName(const parser::CriticalConstruct &criticalConstruct) {
    CheckEndName<parser::CriticalStmt, parser::EndCriticalStmt>(
        "CRITICAL", criticalConstruct);
  }
  // C1131
  void CheckName(const parser::DoConstruct &doConstruct) {
    CheckEndName<parser::NonLabelDoStmt, parser::EndDoStmt>("DO", doConstruct);
  }
  // C1035
  void CheckName(const parser::ForallConstruct &forallConstruct) {
    CheckEndName<parser::ForallConstructStmt, parser::EndForallStmt>(
        "FORALL", forallConstruct);
  }

  // C1109
  void CheckName(const parser::BlockConstruct &blockConstruct) {
    CheckEndName<parser::BlockStmt, parser::EndBlockStmt>(
        "BLOCK", blockConstruct);
  }
  // C1112
  void CheckName(const parser::ChangeTeamConstruct &changeTeamConstruct) {
    CheckEndName<parser::ChangeTeamStmt, parser::EndChangeTeamStmt>(
        "CHANGE TEAM", changeTeamConstruct);
  }

  // C1142
  void CheckName(const parser::IfConstruct &ifConstruct) {
    CheckEndName<parser::IfThenStmt, parser::EndIfStmt>("IF", ifConstruct);
    for (const auto &elseIfBlock :
        std::get<std::list<parser::IfConstruct::ElseIfBlock>>(ifConstruct.t)) {
      CheckOptionalName<parser::IfThenStmt>("IF construct", ifConstruct,
          std::get<parser::Statement<parser::ElseIfStmt>>(elseIfBlock.t));
    }
    if (const auto &elseBlock{
            std::get<std::optional<parser::IfConstruct::ElseBlock>>(
                ifConstruct.t)}) {
      CheckOptionalName<parser::IfThenStmt>("IF construct", ifConstruct,
          std::get<parser::Statement<parser::ElseStmt>>(elseBlock->t));
    }
  }

  // C1033
  void CheckName(const parser::WhereConstruct &whereConstruct) {
    CheckEndName<parser::WhereConstructStmt, parser::EndWhereStmt>(
        "WHERE", whereConstruct);
    for (const auto &maskedElsewhere :
        std::get<std::list<parser::WhereConstruct::MaskedElsewhere>>(
            whereConstruct.t)) {
      CheckOptionalName<parser::WhereConstructStmt>("WHERE construct",
          whereConstruct,
          std::get<parser::Statement<parser::MaskedElsewhereStmt>>(
              maskedElsewhere.t));
    }
    if (const auto &elsewhere{
            std::get<std::optional<parser::WhereConstruct::Elsewhere>>(
                whereConstruct.t)}) {
      CheckOptionalName<parser::WhereConstructStmt>("WHERE construct",
          whereConstruct,
          std::get<parser::Statement<parser::ElsewhereStmt>>(elsewhere->t));
    }
  }

  // C1134, C1166
  void CheckLabelContext(
      const char *const stmtString, const parser::CharBlock &constructName) {
    const auto iter{std::find(constructNames_.crbegin(),
        constructNames_.crend(), constructName.ToString())};
    if (iter == constructNames_.crend()) {
      context_.Say(constructName,
          parser::MessageFormattedText{
              "%s construct-name is not in scope"_err_en_US, stmtString});
    }
  }

  // 6.2.5, paragraph 2
  void CheckLabelInRange(parser::Label label) {
    if (label < 1 || label > 99999) {
      context_.Say(currentPosition_,
          parser::MessageFormattedText{
              "Label '%u' is out of range"_err_en_US, SayLabel(label)});
    }
  }

  // 6.2.5., paragraph 2
  void AddTargetLabelDefinition(bool useParent, parser::Label label,
      LabeledStmtClassificationSet labeledStmtClassificationSet,
      bool isExecutableConstructEndStmt) {
    CheckLabelInRange(label);
    const auto pair{programUnits_.back().targetStmts.emplace(label,
        LabeledStatementInfoTuplePOD{
            (useParent ? ParentScope() : currentScope_), currentPosition_,
            labeledStmtClassificationSet, isExecutableConstructEndStmt})};
    if (!pair.second) {
      context_.Say(currentPosition_,
          parser::MessageFormattedText{
              "Label '%u' is not distinct"_err_en_US, SayLabel(label)});
    }
  }

  void AddLabelReferenceFromDoStmt(parser::Label label) {
    CheckLabelInRange(label);
    programUnits_.back().doStmtSources.emplace_back(
        label, currentScope_, currentPosition_);
  }

  void AddLabelReferenceToFormatStmt(parser::Label label) {
    CheckLabelInRange(label);
    programUnits_.back().formatStmtSources.emplace_back(
        label, currentScope_, currentPosition_);
  }

  void AddLabelReferenceFromAssignStmt(parser::Label label) {
    CheckLabelInRange(label);
    programUnits_.back().assignStmtSources.emplace_back(
        label, currentScope_, currentPosition_);
  }

  void AddLabelReference(parser::Label label) {
    CheckLabelInRange(label);
    programUnits_.back().otherStmtSources.emplace_back(
        label, currentScope_, currentPosition_);
  }

  void AddLabelReference(const std::list<parser::Label> &labels) {
    for (const parser::Label &label : labels) {
      AddLabelReference(label);
    }
  }

  std::vector<UnitAnalysis> programUnits_;
  SemanticsContext &context_;
  parser::CharBlock currentPosition_{nullptr};
  ProxyForScope currentScope_;
  std::vector<std::string> constructNames_;
};

bool InInclusiveScope(const std::vector<ProxyForScope> &scopes,
    ProxyForScope tail, ProxyForScope head) {
  for (; tail != head; tail = scopes[tail]) {
    if (!HasScope(tail)) {
      return false;
    }
  }
  return true;
}

ParseTreeAnalyzer LabelAnalysis(
    SemanticsContext &context, const parser::Program &program) {
  ParseTreeAnalyzer analysis{context};
  Walk(program, analysis);
  return analysis;
}

bool InBody(const parser::CharBlock &position,
    const std::pair<parser::CharBlock, parser::CharBlock> &pair) {
  if (position.begin() >= pair.first.begin()) {
    if (position.begin() < pair.second.end()) {
      return true;
    }
  }
  return false;
}

LabeledStatementInfoTuplePOD GetLabel(
    const TargetStmtMap &labels, const parser::Label &label) {
  const auto iter{labels.find(label)};
  if (iter == labels.cend()) {
    return {0u, nullptr, LabeledStmtClassificationSet{}, false};
  } else {
    return iter->second;
  }
}

// 11.1.7.3
void CheckBranchesIntoDoBody(const SourceStmtList &branches,
    const TargetStmtMap &labels, const IndexList &loopBodies,
    SemanticsContext &context) {
  for (const auto &branch : branches) {
    const auto &label{branch.parserLabel};
    auto branchTarget{GetLabel(labels, label)};
    if (HasScope(branchTarget.proxyForScope)) {
      const auto &fromPosition{branch.parserCharBlock};
      const auto &toPosition{branchTarget.parserCharBlock};
      for (const auto &body : loopBodies) {
        if (!InBody(fromPosition, body) && InBody(toPosition, body)) {
          context.Say(fromPosition, "branch into loop body from outside"_en_US)
              .Attach(body.first, "the loop branched into"_en_US);
        }
      }
    }
  }
}

void CheckDoNesting(const IndexList &loopBodies, SemanticsContext &context) {
  for (auto i1{loopBodies.cbegin()}; i1 != loopBodies.cend(); ++i1) {
    const auto &v1{*i1};
    for (auto i2{i1 + 1}; i2 != loopBodies.cend(); ++i2) {
      const auto &v2{*i2};
      if (v2.first.begin() < v1.second.end() &&
          v1.second.begin() < v2.second.begin()) {
        context.Say(v1.first, "DO loop doesn't properly nest"_err_en_US)
            .Attach(v2.first, "DO loop conflicts"_en_US);
      }
    }
  }
}

parser::CharBlock SkipLabel(const parser::CharBlock &position) {
  const std::size_t maxPosition{position.size()};
  if (maxPosition && parser::IsDecimalDigit(position[0])) {
    std::size_t i{1l};
    for (; (i < maxPosition) && parser::IsDecimalDigit(position[i]); ++i) {
    }
    for (; (i < maxPosition) && std::isspace(position[i]); ++i) {
    }
    return parser::CharBlock{position.begin() + i, position.end()};
  }
  return position;
}

ProxyForScope ParentScope(
    const std::vector<ProxyForScope> &scopes, ProxyForScope scope) {
  return scopes[scope];
}

void CheckLabelDoConstraints(const SourceStmtList &dos,
    const SourceStmtList &branches, const TargetStmtMap &labels,
    const std::vector<ProxyForScope> &scopes, SemanticsContext &context) {
  IndexList loopBodies;
  for (const auto &stmt : dos) {
    const auto &label{stmt.parserLabel};
    const auto &scope{stmt.proxyForScope};
    const auto &position{stmt.parserCharBlock};
    auto doTarget{GetLabel(labels, label)};
    if (!HasScope(doTarget.proxyForScope)) {
      // C1133
      context.Say(position,
          parser::MessageFormattedText{
              "Label '%u' cannot be found"_err_en_US, SayLabel(label)});
    } else if (doTarget.parserCharBlock.begin() < position.begin()) {
      // R1119
      context.Say(position,
          parser::MessageFormattedText{
              "Label '%u' doesn't lexically follow DO stmt"_err_en_US,
              SayLabel(label)});

    } else if ((InInclusiveScope(scopes, scope, doTarget.proxyForScope) &&
                   doTarget.labeledStmtClassificationSet.test(
                       TargetStatementEnum::CompatibleDo)) ||
        (doTarget.isExecutableConstructEndStmt &&
            ParentScope(scopes, doTarget.proxyForScope) == scope)) {
      if (context.warnOnNonstandardUsage() ||
          context.ShouldWarn(
              common::LanguageFeature::OldLabelDoEndStatements)) {
        context
            .Say(position,
                parser::MessageFormattedText{
                    "A DO loop should terminate with an END DO or CONTINUE"_en_US})
            .Attach(doTarget.parserCharBlock,
                "DO loop currently ends at statement:"_en_US);
      }
    } else if (!InInclusiveScope(scopes, scope, doTarget.proxyForScope)) {
      context.Say(position,
          parser::MessageFormattedText{
              "Label '%u' is not in DO loop scope"_err_en_US, SayLabel(label)});
    } else if (!doTarget.labeledStmtClassificationSet.test(
                   TargetStatementEnum::Do)) {
      context.Say(doTarget.parserCharBlock,
          parser::MessageFormattedText{
              "A DO loop should terminate with an END DO or CONTINUE"_err_en_US});
    } else {
      loopBodies.emplace_back(SkipLabel(position), doTarget.parserCharBlock);
    }
  }

  CheckBranchesIntoDoBody(branches, labels, loopBodies, context);
  CheckDoNesting(loopBodies, context);
}

// 6.2.5
void CheckScopeConstraints(const SourceStmtList &stmts,
    const TargetStmtMap &labels, const std::vector<ProxyForScope> &scopes,
    SemanticsContext &context) {
  for (const auto &stmt : stmts) {
    const auto &label{stmt.parserLabel};
    const auto &scope{stmt.proxyForScope};
    const auto &position{stmt.parserCharBlock};
    auto target{GetLabel(labels, label)};
    if (!HasScope(target.proxyForScope)) {
      context.Say(position,
          parser::MessageFormattedText{
              "Label '%u' was not found"_err_en_US, SayLabel(label)});
    } else if (!InInclusiveScope(scopes, scope, target.proxyForScope)) {
      context.Say(position,
          parser::MessageFormattedText{
              "Label '%u' is not in scope"_en_US, SayLabel(label)});
    }
  }
}

void CheckBranchTargetConstraints(const SourceStmtList &stmts,
    const TargetStmtMap &labels, SemanticsContext &context) {
  for (const auto &stmt : stmts) {
    const auto &label{stmt.parserLabel};
    auto branchTarget{GetLabel(labels, label)};
    if (HasScope(branchTarget.proxyForScope)) {
      if (!branchTarget.labeledStmtClassificationSet.test(
              TargetStatementEnum::Branch) &&
          !branchTarget.labeledStmtClassificationSet.test(
              TargetStatementEnum::CompatibleBranch)) { // error
        context
            .Say(branchTarget.parserCharBlock,
                parser::MessageFormattedText{
                    "Label '%u' is not a branch target"_err_en_US,
                    SayLabel(label)})
            .Attach(stmt.parserCharBlock,
                parser::MessageFormattedText{
                    "Control flow use of '%u'"_en_US, SayLabel(label)});
      } else if (!branchTarget.labeledStmtClassificationSet.test(
                     TargetStatementEnum::Branch)) { // warning
        context
            .Say(branchTarget.parserCharBlock,
                parser::MessageFormattedText{
                    "Label '%u' is not a branch target"_en_US, SayLabel(label)})
            .Attach(stmt.parserCharBlock,
                parser::MessageFormattedText{
                    "Control flow use of '%u'"_en_US, SayLabel(label)});
      }
    }
  }
}

void CheckBranchConstraints(const SourceStmtList &branches,
    const TargetStmtMap &labels, const std::vector<ProxyForScope> &scopes,
    SemanticsContext &context) {
  CheckScopeConstraints(branches, labels, scopes, context);
  CheckBranchTargetConstraints(branches, labels, context);
}

void CheckDataXferTargetConstraints(const SourceStmtList &stmts,
    const TargetStmtMap &labels, SemanticsContext &context) {
  for (const auto &stmt : stmts) {
    const auto &label{stmt.parserLabel};
    auto ioTarget{GetLabel(labels, label)};
    if (HasScope(ioTarget.proxyForScope)) {
      if (!ioTarget.labeledStmtClassificationSet.test(
              TargetStatementEnum::Format)) {
        context
            .Say(ioTarget.parserCharBlock,
                parser::MessageFormattedText{
                    "'%u' not a FORMAT"_err_en_US, SayLabel(label)})
            .Attach(stmt.parserCharBlock,
                parser::MessageFormattedText{
                    "data transfer use of '%u'"_en_US, SayLabel(label)});
      }
    }
  }
}

void CheckDataTransferConstraints(const SourceStmtList &dataTransfers,
    const TargetStmtMap &labels, const std::vector<ProxyForScope> &scopes,
    SemanticsContext &context) {
  CheckScopeConstraints(dataTransfers, labels, scopes, context);
  CheckDataXferTargetConstraints(dataTransfers, labels, context);
}

void CheckAssignTargetConstraints(const SourceStmtList &stmts,
    const TargetStmtMap &labels, SemanticsContext &context) {
  for (const auto &stmt : stmts) {
    const auto &label{stmt.parserLabel};
    auto target{GetLabel(labels, label)};
    if (HasScope(target.proxyForScope) &&
        !target.labeledStmtClassificationSet.test(
            TargetStatementEnum::Branch) &&
        !target.labeledStmtClassificationSet.test(
            TargetStatementEnum::Format)) {
      context
          .Say(target.parserCharBlock,
              target.labeledStmtClassificationSet.test(
                  TargetStatementEnum::CompatibleBranch)
                  ? "Label '%u' is not a branch target or FORMAT"_en_US
                  : "Label '%u' is not a branch target or FORMAT"_err_en_US,
              SayLabel(label))
          .Attach(stmt.parserCharBlock, "ASSIGN statement use of '%u'"_en_US,
              SayLabel(label));
    }
  }
}

void CheckAssignConstraints(const SourceStmtList &assigns,
    const TargetStmtMap &labels, const std::vector<ProxyForScope> &scopes,
    SemanticsContext &context) {
  CheckScopeConstraints(assigns, labels, scopes, context);
  CheckAssignTargetConstraints(assigns, labels, context);
}

bool CheckConstraints(ParseTreeAnalyzer &&parseTreeAnalysis) {
  auto &context{parseTreeAnalysis.ErrorHandler()};
  for (const auto &programUnit : parseTreeAnalysis.ProgramUnits()) {
    const auto &dos{programUnit.doStmtSources};
    const auto &branches{programUnit.otherStmtSources};
    const auto &labels{programUnit.targetStmts};
    const auto &scopes{programUnit.scopeModel};
    CheckLabelDoConstraints(dos, branches, labels, scopes, context);
    CheckBranchConstraints(branches, labels, scopes, context);
    const auto &dataTransfers{programUnit.formatStmtSources};
    CheckDataTransferConstraints(dataTransfers, labels, scopes, context);
    const auto &assigns{programUnit.assignStmtSources};
    CheckAssignConstraints(assigns, labels, scopes, context);
  }
  return !context.AnyFatalError();
}

bool ValidateLabels(SemanticsContext &context, const parser::Program &program) {
  return CheckConstraints(LabelAnalysis(context, program));
}
} // namespace Fortran::semantics