Mercurial > hg > CbC > CbC_llvm
view flang/lib/Semantics/check-io.cpp @ 207:2e18cbf3894f
LLVM12
| author | Shinji KONO <kono@ie.u-ryukyu.ac.jp> |
|---|---|
| date | Tue, 08 Jun 2021 06:07:14 +0900 |
| parents | 0572611fdcc8 |
| children | c4bab56944e8 |
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//===-- lib/Semantics/check-io.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 "check-io.h" #include "flang/Common/format.h" #include "flang/Parser/tools.h" #include "flang/Semantics/expression.h" #include "flang/Semantics/tools.h" #include <unordered_map> namespace Fortran::semantics { // TODO: C1234, C1235 -- defined I/O constraints class FormatErrorReporter { public: FormatErrorReporter(SemanticsContext &context, const parser::CharBlock &formatCharBlock, int errorAllowance = 3) : context_{context}, formatCharBlock_{formatCharBlock}, errorAllowance_{errorAllowance} {} bool Say(const common::FormatMessage &); private: SemanticsContext &context_; const parser::CharBlock &formatCharBlock_; int errorAllowance_; // initialized to maximum number of errors to report }; bool FormatErrorReporter::Say(const common::FormatMessage &msg) { if (!msg.isError && !context_.warnOnNonstandardUsage()) { return false; } parser::MessageFormattedText text{ parser::MessageFixedText(msg.text, strlen(msg.text), msg.isError), msg.arg}; if (formatCharBlock_.size()) { // The input format is a folded expression. Error markers span the full // original unfolded expression in formatCharBlock_. context_.Say(formatCharBlock_, text); } else { // The input format is a source expression. Error markers have an offset // and length relative to the beginning of formatCharBlock_. parser::CharBlock messageCharBlock{ parser::CharBlock(formatCharBlock_.begin() + msg.offset, msg.length)}; context_.Say(messageCharBlock, text); } return msg.isError && --errorAllowance_ <= 0; } void IoChecker::Enter( const parser::Statement<common::Indirection<parser::FormatStmt>> &stmt) { if (!stmt.label) { context_.Say("Format statement must be labeled"_err_en_US); // C1301 } const char *formatStart{static_cast<const char *>( std::memchr(stmt.source.begin(), '(', stmt.source.size()))}; parser::CharBlock reporterCharBlock{formatStart, static_cast<std::size_t>(0)}; FormatErrorReporter reporter{context_, reporterCharBlock}; auto reporterWrapper{[&](const auto &msg) { return reporter.Say(msg); }}; switch (context_.GetDefaultKind(TypeCategory::Character)) { case 1: { common::FormatValidator<char> validator{formatStart, stmt.source.size() - (formatStart - stmt.source.begin()), reporterWrapper}; validator.Check(); break; } case 2: { // TODO: Get this to work. common::FormatValidator<char16_t> validator{ /*???*/ nullptr, /*???*/ 0, reporterWrapper}; validator.Check(); break; } case 4: { // TODO: Get this to work. common::FormatValidator<char32_t> validator{ /*???*/ nullptr, /*???*/ 0, reporterWrapper}; validator.Check(); break; } default: CRASH_NO_CASE; } } void IoChecker::Enter(const parser::ConnectSpec &spec) { // ConnectSpec context FileNameExpr if (std::get_if<parser::FileNameExpr>(&spec.u)) { SetSpecifier(IoSpecKind::File); } } void IoChecker::Enter(const parser::ConnectSpec::CharExpr &spec) { IoSpecKind specKind{}; using ParseKind = parser::ConnectSpec::CharExpr::Kind; switch (std::get<ParseKind>(spec.t)) { case ParseKind::Access: specKind = IoSpecKind::Access; break; case ParseKind::Action: specKind = IoSpecKind::Action; break; case ParseKind::Asynchronous: specKind = IoSpecKind::Asynchronous; break; case ParseKind::Blank: specKind = IoSpecKind::Blank; break; case ParseKind::Decimal: specKind = IoSpecKind::Decimal; break; case ParseKind::Delim: specKind = IoSpecKind::Delim; break; case ParseKind::Encoding: specKind = IoSpecKind::Encoding; break; case ParseKind::Form: specKind = IoSpecKind::Form; break; case ParseKind::Pad: specKind = IoSpecKind::Pad; break; case ParseKind::Position: specKind = IoSpecKind::Position; break; case ParseKind::Round: specKind = IoSpecKind::Round; break; case ParseKind::Sign: specKind = IoSpecKind::Sign; break; case ParseKind::Carriagecontrol: specKind = IoSpecKind::Carriagecontrol; break; case ParseKind::Convert: specKind = IoSpecKind::Convert; break; case ParseKind::Dispose: specKind = IoSpecKind::Dispose; break; } SetSpecifier(specKind); if (const std::optional<std::string> charConst{GetConstExpr<std::string>( std::get<parser::ScalarDefaultCharExpr>(spec.t))}) { std::string s{parser::ToUpperCaseLetters(*charConst)}; if (specKind == IoSpecKind::Access) { flags_.set(Flag::KnownAccess); flags_.set(Flag::AccessDirect, s == "DIRECT"); flags_.set(Flag::AccessStream, s == "STREAM"); } CheckStringValue(specKind, *charConst, parser::FindSourceLocation(spec)); if (specKind == IoSpecKind::Carriagecontrol && (s == "FORTRAN" || s == "NONE")) { context_.Say(parser::FindSourceLocation(spec), "Unimplemented %s value '%s'"_err_en_US, parser::ToUpperCaseLetters(common::EnumToString(specKind)), *charConst); } } } void IoChecker::Enter(const parser::ConnectSpec::Newunit &var) { CheckForDefinableVariable(var, "NEWUNIT"); SetSpecifier(IoSpecKind::Newunit); } void IoChecker::Enter(const parser::ConnectSpec::Recl &spec) { SetSpecifier(IoSpecKind::Recl); if (const std::optional<std::int64_t> recl{ GetConstExpr<std::int64_t>(spec)}) { if (*recl <= 0) { context_.Say(parser::FindSourceLocation(spec), "RECL value (%jd) must be positive"_err_en_US, *recl); // 12.5.6.15 } } } void IoChecker::Enter(const parser::EndLabel &) { SetSpecifier(IoSpecKind::End); } void IoChecker::Enter(const parser::EorLabel &) { SetSpecifier(IoSpecKind::Eor); } void IoChecker::Enter(const parser::ErrLabel &) { SetSpecifier(IoSpecKind::Err); } void IoChecker::Enter(const parser::FileUnitNumber &) { SetSpecifier(IoSpecKind::Unit); flags_.set(Flag::NumberUnit); } void IoChecker::Enter(const parser::Format &spec) { SetSpecifier(IoSpecKind::Fmt); flags_.set(Flag::FmtOrNml); std::visit( common::visitors{ [&](const parser::Label &) { flags_.set(Flag::LabelFmt); }, [&](const parser::Star &) { flags_.set(Flag::StarFmt); }, [&](const parser::Expr &format) { const SomeExpr *expr{GetExpr(format)}; if (!expr) { return; } auto type{expr->GetType()}; if (!type || (type->category() != TypeCategory::Integer && type->category() != TypeCategory::Character) || type->kind() != context_.defaultKinds().GetDefaultKind(type->category())) { context_.Say(format.source, "Format expression must be default character or integer"_err_en_US); return; } if (type->category() == TypeCategory::Integer) { flags_.set(Flag::AssignFmt); if (expr->Rank() != 0 || !IsVariable(*expr)) { context_.Say(format.source, "Assigned format label must be a scalar variable"_err_en_US); } return; } flags_.set(Flag::CharFmt); const std::optional<std::string> constantFormat{ GetConstExpr<std::string>(format)}; if (!constantFormat) { return; } // validate constant format -- 12.6.2.2 bool isFolded{constantFormat->size() != format.source.size() - 2}; parser::CharBlock reporterCharBlock{isFolded ? parser::CharBlock{format.source} : parser::CharBlock{format.source.begin() + 1, static_cast<std::size_t>(0)}}; FormatErrorReporter reporter{context_, reporterCharBlock}; auto reporterWrapper{ [&](const auto &msg) { return reporter.Say(msg); }}; switch (context_.GetDefaultKind(TypeCategory::Character)) { case 1: { common::FormatValidator<char> validator{constantFormat->c_str(), constantFormat->length(), reporterWrapper, stmt_}; validator.Check(); break; } case 2: { // TODO: Get this to work. (Maybe combine with earlier instance?) common::FormatValidator<char16_t> validator{ /*???*/ nullptr, /*???*/ 0, reporterWrapper, stmt_}; validator.Check(); break; } case 4: { // TODO: Get this to work. (Maybe combine with earlier instance?) common::FormatValidator<char32_t> validator{ /*???*/ nullptr, /*???*/ 0, reporterWrapper, stmt_}; validator.Check(); break; } default: CRASH_NO_CASE; } }, }, spec.u); } void IoChecker::Enter(const parser::IdExpr &) { SetSpecifier(IoSpecKind::Id); } void IoChecker::Enter(const parser::IdVariable &spec) { SetSpecifier(IoSpecKind::Id); const auto *expr{GetExpr(spec)}; if (!expr || !expr->GetType()) { return; } CheckForDefinableVariable(spec, "ID"); int kind{expr->GetType()->kind()}; int defaultKind{context_.GetDefaultKind(TypeCategory::Integer)}; if (kind < defaultKind) { context_.Say( "ID kind (%d) is smaller than default INTEGER kind (%d)"_err_en_US, std::move(kind), std::move(defaultKind)); // C1229 } } void IoChecker::Enter(const parser::InputItem &spec) { flags_.set(Flag::DataList); const parser::Variable *var{std::get_if<parser::Variable>(&spec.u)}; if (!var) { return; } CheckForDefinableVariable(*var, "Input"); } void IoChecker::Enter(const parser::InquireSpec &spec) { // InquireSpec context FileNameExpr if (std::get_if<parser::FileNameExpr>(&spec.u)) { SetSpecifier(IoSpecKind::File); } } void IoChecker::Enter(const parser::InquireSpec::CharVar &spec) { IoSpecKind specKind{}; using ParseKind = parser::InquireSpec::CharVar::Kind; switch (std::get<ParseKind>(spec.t)) { case ParseKind::Access: specKind = IoSpecKind::Access; break; case ParseKind::Action: specKind = IoSpecKind::Action; break; case ParseKind::Asynchronous: specKind = IoSpecKind::Asynchronous; break; case ParseKind::Blank: specKind = IoSpecKind::Blank; break; case ParseKind::Decimal: specKind = IoSpecKind::Decimal; break; case ParseKind::Delim: specKind = IoSpecKind::Delim; break; case ParseKind::Direct: specKind = IoSpecKind::Direct; break; case ParseKind::Encoding: specKind = IoSpecKind::Encoding; break; case ParseKind::Form: specKind = IoSpecKind::Form; break; case ParseKind::Formatted: specKind = IoSpecKind::Formatted; break; case ParseKind::Iomsg: specKind = IoSpecKind::Iomsg; break; case ParseKind::Name: specKind = IoSpecKind::Name; break; case ParseKind::Pad: specKind = IoSpecKind::Pad; break; case ParseKind::Position: specKind = IoSpecKind::Position; break; case ParseKind::Read: specKind = IoSpecKind::Read; break; case ParseKind::Readwrite: specKind = IoSpecKind::Readwrite; break; case ParseKind::Round: specKind = IoSpecKind::Round; break; case ParseKind::Sequential: specKind = IoSpecKind::Sequential; break; case ParseKind::Sign: specKind = IoSpecKind::Sign; break; case ParseKind::Status: specKind = IoSpecKind::Status; break; case ParseKind::Stream: specKind = IoSpecKind::Stream; break; case ParseKind::Unformatted: specKind = IoSpecKind::Unformatted; break; case ParseKind::Write: specKind = IoSpecKind::Write; break; case ParseKind::Carriagecontrol: specKind = IoSpecKind::Carriagecontrol; break; case ParseKind::Convert: specKind = IoSpecKind::Convert; break; case ParseKind::Dispose: specKind = IoSpecKind::Dispose; break; } CheckForDefinableVariable(std::get<parser::ScalarDefaultCharVariable>(spec.t), parser::ToUpperCaseLetters(common::EnumToString(specKind))); SetSpecifier(specKind); } void IoChecker::Enter(const parser::InquireSpec::IntVar &spec) { IoSpecKind specKind{}; using ParseKind = parser::InquireSpec::IntVar::Kind; switch (std::get<parser::InquireSpec::IntVar::Kind>(spec.t)) { case ParseKind::Iostat: specKind = IoSpecKind::Iostat; break; case ParseKind::Nextrec: specKind = IoSpecKind::Nextrec; break; case ParseKind::Number: specKind = IoSpecKind::Number; break; case ParseKind::Pos: specKind = IoSpecKind::Pos; break; case ParseKind::Recl: specKind = IoSpecKind::Recl; break; case ParseKind::Size: specKind = IoSpecKind::Size; break; } CheckForDefinableVariable(std::get<parser::ScalarIntVariable>(spec.t), parser::ToUpperCaseLetters(common::EnumToString(specKind))); SetSpecifier(specKind); } void IoChecker::Enter(const parser::InquireSpec::LogVar &spec) { IoSpecKind specKind{}; using ParseKind = parser::InquireSpec::LogVar::Kind; switch (std::get<parser::InquireSpec::LogVar::Kind>(spec.t)) { case ParseKind::Exist: specKind = IoSpecKind::Exist; break; case ParseKind::Named: specKind = IoSpecKind::Named; break; case ParseKind::Opened: specKind = IoSpecKind::Opened; break; case ParseKind::Pending: specKind = IoSpecKind::Pending; break; } SetSpecifier(specKind); } void IoChecker::Enter(const parser::IoControlSpec &spec) { // IoControlSpec context Name flags_.set(Flag::IoControlList); if (std::holds_alternative<parser::Name>(spec.u)) { SetSpecifier(IoSpecKind::Nml); flags_.set(Flag::FmtOrNml); } } void IoChecker::Enter(const parser::IoControlSpec::Asynchronous &spec) { SetSpecifier(IoSpecKind::Asynchronous); if (const std::optional<std::string> charConst{ GetConstExpr<std::string>(spec)}) { flags_.set( Flag::AsynchronousYes, parser::ToUpperCaseLetters(*charConst) == "YES"); CheckStringValue(IoSpecKind::Asynchronous, *charConst, parser::FindSourceLocation(spec)); // C1223 } } void IoChecker::Enter(const parser::IoControlSpec::CharExpr &spec) { IoSpecKind specKind{}; using ParseKind = parser::IoControlSpec::CharExpr::Kind; switch (std::get<ParseKind>(spec.t)) { case ParseKind::Advance: specKind = IoSpecKind::Advance; break; case ParseKind::Blank: specKind = IoSpecKind::Blank; break; case ParseKind::Decimal: specKind = IoSpecKind::Decimal; break; case ParseKind::Delim: specKind = IoSpecKind::Delim; break; case ParseKind::Pad: specKind = IoSpecKind::Pad; break; case ParseKind::Round: specKind = IoSpecKind::Round; break; case ParseKind::Sign: specKind = IoSpecKind::Sign; break; } SetSpecifier(specKind); if (const std::optional<std::string> charConst{GetConstExpr<std::string>( std::get<parser::ScalarDefaultCharExpr>(spec.t))}) { if (specKind == IoSpecKind::Advance) { flags_.set( Flag::AdvanceYes, parser::ToUpperCaseLetters(*charConst) == "YES"); } CheckStringValue(specKind, *charConst, parser::FindSourceLocation(spec)); } } void IoChecker::Enter(const parser::IoControlSpec::Pos &) { SetSpecifier(IoSpecKind::Pos); } void IoChecker::Enter(const parser::IoControlSpec::Rec &) { SetSpecifier(IoSpecKind::Rec); } void IoChecker::Enter(const parser::IoControlSpec::Size &var) { CheckForDefinableVariable(var, "SIZE"); SetSpecifier(IoSpecKind::Size); } void IoChecker::Enter(const parser::IoUnit &spec) { if (const parser::Variable * var{std::get_if<parser::Variable>(&spec.u)}) { if (stmt_ == IoStmtKind::Write) { CheckForDefinableVariable(*var, "Internal file"); } if (const auto *expr{GetExpr(*var)}) { if (HasVectorSubscript(*expr)) { context_.Say(parser::FindSourceLocation(*var), // C1201 "Internal file must not have a vector subscript"_err_en_US); } else if (!ExprTypeKindIsDefault(*expr, context_)) { // This may be too restrictive; other kinds may be valid. context_.Say(parser::FindSourceLocation(*var), // C1202 "Invalid character kind for an internal file variable"_err_en_US); } } SetSpecifier(IoSpecKind::Unit); flags_.set(Flag::InternalUnit); } else if (std::get_if<parser::Star>(&spec.u)) { SetSpecifier(IoSpecKind::Unit); flags_.set(Flag::StarUnit); } } void IoChecker::Enter(const parser::MsgVariable &var) { if (stmt_ == IoStmtKind::None) { // allocate, deallocate, image control CheckForDefinableVariable(var, "ERRMSG"); return; } CheckForDefinableVariable(var, "IOMSG"); SetSpecifier(IoSpecKind::Iomsg); } void IoChecker::Enter(const parser::OutputItem &item) { flags_.set(Flag::DataList); if (const auto *x{std::get_if<parser::Expr>(&item.u)}) { if (const auto *expr{GetExpr(*x)}) { const Symbol *last{GetLastSymbol(*expr)}; if (last && IsProcedurePointer(*last)) { context_.Say(parser::FindSourceLocation(*x), "Output item must not be a procedure pointer"_err_en_US); // C1233 } } } } void IoChecker::Enter(const parser::StatusExpr &spec) { SetSpecifier(IoSpecKind::Status); if (const std::optional<std::string> charConst{ GetConstExpr<std::string>(spec)}) { // Status values for Open and Close are different. std::string s{parser::ToUpperCaseLetters(*charConst)}; if (stmt_ == IoStmtKind::Open) { flags_.set(Flag::KnownStatus); flags_.set(Flag::StatusNew, s == "NEW"); flags_.set(Flag::StatusReplace, s == "REPLACE"); flags_.set(Flag::StatusScratch, s == "SCRATCH"); // CheckStringValue compares for OPEN Status string values. CheckStringValue( IoSpecKind::Status, *charConst, parser::FindSourceLocation(spec)); return; } CHECK(stmt_ == IoStmtKind::Close); if (s != "DELETE" && s != "KEEP") { context_.Say(parser::FindSourceLocation(spec), "Invalid STATUS value '%s'"_err_en_US, *charConst); } } } void IoChecker::Enter(const parser::StatVariable &var) { if (stmt_ == IoStmtKind::None) { // allocate, deallocate, image control CheckForDefinableVariable(var, "STAT"); return; } CheckForDefinableVariable(var, "IOSTAT"); SetSpecifier(IoSpecKind::Iostat); } void IoChecker::Leave(const parser::BackspaceStmt &) { CheckForPureSubprogram(); CheckForRequiredSpecifier( flags_.test(Flag::NumberUnit), "UNIT number"); // C1240 Done(); } void IoChecker::Leave(const parser::CloseStmt &) { CheckForPureSubprogram(); CheckForRequiredSpecifier( flags_.test(Flag::NumberUnit), "UNIT number"); // C1208 Done(); } void IoChecker::Leave(const parser::EndfileStmt &) { CheckForPureSubprogram(); CheckForRequiredSpecifier( flags_.test(Flag::NumberUnit), "UNIT number"); // C1240 Done(); } void IoChecker::Leave(const parser::FlushStmt &) { CheckForPureSubprogram(); CheckForRequiredSpecifier( flags_.test(Flag::NumberUnit), "UNIT number"); // C1243 Done(); } void IoChecker::Leave(const parser::InquireStmt &stmt) { if (std::get_if<std::list<parser::InquireSpec>>(&stmt.u)) { CheckForPureSubprogram(); // Inquire by unit or by file (vs. by output list). CheckForRequiredSpecifier( flags_.test(Flag::NumberUnit) || specifierSet_.test(IoSpecKind::File), "UNIT number or FILE"); // C1246 CheckForProhibitedSpecifier(IoSpecKind::File, IoSpecKind::Unit); // C1246 CheckForRequiredSpecifier(IoSpecKind::Id, IoSpecKind::Pending); // C1248 } Done(); } void IoChecker::Leave(const parser::OpenStmt &) { CheckForPureSubprogram(); CheckForRequiredSpecifier(specifierSet_.test(IoSpecKind::Unit) || specifierSet_.test(IoSpecKind::Newunit), "UNIT or NEWUNIT"); // C1204, C1205 CheckForProhibitedSpecifier( IoSpecKind::Newunit, IoSpecKind::Unit); // C1204, C1205 CheckForRequiredSpecifier(flags_.test(Flag::StatusNew), "STATUS='NEW'", IoSpecKind::File); // 12.5.6.10 CheckForRequiredSpecifier(flags_.test(Flag::StatusReplace), "STATUS='REPLACE'", IoSpecKind::File); // 12.5.6.10 CheckForProhibitedSpecifier(flags_.test(Flag::StatusScratch), "STATUS='SCRATCH'", IoSpecKind::File); // 12.5.6.10 if (flags_.test(Flag::KnownStatus)) { CheckForRequiredSpecifier(IoSpecKind::Newunit, specifierSet_.test(IoSpecKind::File) || flags_.test(Flag::StatusScratch), "FILE or STATUS='SCRATCH'"); // 12.5.6.12 } else { CheckForRequiredSpecifier(IoSpecKind::Newunit, specifierSet_.test(IoSpecKind::File) || specifierSet_.test(IoSpecKind::Status), "FILE or STATUS"); // 12.5.6.12 } if (flags_.test(Flag::KnownAccess)) { CheckForRequiredSpecifier(flags_.test(Flag::AccessDirect), "ACCESS='DIRECT'", IoSpecKind::Recl); // 12.5.6.15 CheckForProhibitedSpecifier(flags_.test(Flag::AccessStream), "STATUS='STREAM'", IoSpecKind::Recl); // 12.5.6.15 } Done(); } void IoChecker::Leave(const parser::PrintStmt &) { CheckForPureSubprogram(); Done(); } static void CheckForDoVariableInNamelist(const Symbol &namelist, SemanticsContext &context, parser::CharBlock namelistLocation) { const auto &details{namelist.GetUltimate().get<NamelistDetails>()}; for (const Symbol &object : details.objects()) { context.CheckIndexVarRedefine(namelistLocation, object); } } static void CheckForDoVariableInNamelistSpec( const parser::ReadStmt &readStmt, SemanticsContext &context) { const std::list<parser::IoControlSpec> &controls{readStmt.controls}; for (const auto &control : controls) { if (const auto *namelist{std::get_if<parser::Name>(&control.u)}) { if (const Symbol * symbol{namelist->symbol}) { CheckForDoVariableInNamelist(*symbol, context, namelist->source); } } } } static void CheckForDoVariable( const parser::ReadStmt &readStmt, SemanticsContext &context) { CheckForDoVariableInNamelistSpec(readStmt, context); const std::list<parser::InputItem> &items{readStmt.items}; for (const auto &item : items) { if (const parser::Variable * variable{std::get_if<parser::Variable>(&item.u)}) { context.CheckIndexVarRedefine(*variable); } } } void IoChecker::Leave(const parser::ReadStmt &readStmt) { if (!flags_.test(Flag::InternalUnit)) { CheckForPureSubprogram(); } CheckForDoVariable(readStmt, context_); if (!flags_.test(Flag::IoControlList)) { Done(); return; } LeaveReadWrite(); CheckForProhibitedSpecifier(IoSpecKind::Delim); // C1212 CheckForProhibitedSpecifier(IoSpecKind::Sign); // C1212 CheckForProhibitedSpecifier(IoSpecKind::Rec, IoSpecKind::End); // C1220 CheckForRequiredSpecifier(IoSpecKind::Eor, specifierSet_.test(IoSpecKind::Advance) && !flags_.test(Flag::AdvanceYes), "ADVANCE with value 'NO'"); // C1222 + 12.6.2.1p2 CheckForRequiredSpecifier(IoSpecKind::Blank, flags_.test(Flag::FmtOrNml), "FMT or NML"); // C1227 CheckForRequiredSpecifier( IoSpecKind::Pad, flags_.test(Flag::FmtOrNml), "FMT or NML"); // C1227 Done(); } void IoChecker::Leave(const parser::RewindStmt &) { CheckForRequiredSpecifier( flags_.test(Flag::NumberUnit), "UNIT number"); // C1240 CheckForPureSubprogram(); Done(); } void IoChecker::Leave(const parser::WaitStmt &) { CheckForRequiredSpecifier( flags_.test(Flag::NumberUnit), "UNIT number"); // C1237 CheckForPureSubprogram(); Done(); } void IoChecker::Leave(const parser::WriteStmt &) { if (!flags_.test(Flag::InternalUnit)) { CheckForPureSubprogram(); } LeaveReadWrite(); CheckForProhibitedSpecifier(IoSpecKind::Blank); // C1213 CheckForProhibitedSpecifier(IoSpecKind::End); // C1213 CheckForProhibitedSpecifier(IoSpecKind::Eor); // C1213 CheckForProhibitedSpecifier(IoSpecKind::Pad); // C1213 CheckForProhibitedSpecifier(IoSpecKind::Size); // C1213 CheckForRequiredSpecifier( IoSpecKind::Sign, flags_.test(Flag::FmtOrNml), "FMT or NML"); // C1227 CheckForRequiredSpecifier(IoSpecKind::Delim, flags_.test(Flag::StarFmt) || specifierSet_.test(IoSpecKind::Nml), "FMT=* or NML"); // C1228 Done(); } void IoChecker::LeaveReadWrite() const { CheckForRequiredSpecifier(IoSpecKind::Unit); // C1211 CheckForProhibitedSpecifier(IoSpecKind::Nml, IoSpecKind::Rec); // C1216 CheckForProhibitedSpecifier(IoSpecKind::Nml, IoSpecKind::Fmt); // C1216 CheckForProhibitedSpecifier( IoSpecKind::Nml, flags_.test(Flag::DataList), "a data list"); // C1216 CheckForProhibitedSpecifier(flags_.test(Flag::InternalUnit), "UNIT=internal-file", IoSpecKind::Pos); // C1219 CheckForProhibitedSpecifier(flags_.test(Flag::InternalUnit), "UNIT=internal-file", IoSpecKind::Rec); // C1219 CheckForProhibitedSpecifier( flags_.test(Flag::StarUnit), "UNIT=*", IoSpecKind::Pos); // C1219 CheckForProhibitedSpecifier( flags_.test(Flag::StarUnit), "UNIT=*", IoSpecKind::Rec); // C1219 CheckForProhibitedSpecifier( IoSpecKind::Rec, flags_.test(Flag::StarFmt), "FMT=*"); // C1220 CheckForRequiredSpecifier(IoSpecKind::Advance, flags_.test(Flag::CharFmt) || flags_.test(Flag::LabelFmt) || flags_.test(Flag::AssignFmt), "an explicit format"); // C1221 CheckForProhibitedSpecifier(IoSpecKind::Advance, flags_.test(Flag::InternalUnit), "UNIT=internal-file"); // C1221 CheckForRequiredSpecifier(flags_.test(Flag::AsynchronousYes), "ASYNCHRONOUS='YES'", flags_.test(Flag::NumberUnit), "UNIT=number"); // C1224 CheckForRequiredSpecifier(IoSpecKind::Id, flags_.test(Flag::AsynchronousYes), "ASYNCHRONOUS='YES'"); // C1225 CheckForProhibitedSpecifier(IoSpecKind::Pos, IoSpecKind::Rec); // C1226 CheckForRequiredSpecifier(IoSpecKind::Decimal, flags_.test(Flag::FmtOrNml), "FMT or NML"); // C1227 CheckForRequiredSpecifier(IoSpecKind::Round, flags_.test(Flag::FmtOrNml), "FMT or NML"); // C1227 } void IoChecker::SetSpecifier(IoSpecKind specKind) { if (stmt_ == IoStmtKind::None) { // FMT may appear on PRINT statements, which don't have any checks. // [IO]MSG and [IO]STAT parse symbols are shared with non-I/O statements. return; } // C1203, C1207, C1210, C1236, C1239, C1242, C1245 if (specifierSet_.test(specKind)) { context_.Say("Duplicate %s specifier"_err_en_US, parser::ToUpperCaseLetters(common::EnumToString(specKind))); } specifierSet_.set(specKind); } void IoChecker::CheckStringValue(IoSpecKind specKind, const std::string &value, const parser::CharBlock &source) const { static std::unordered_map<IoSpecKind, const std::set<std::string>> specValues{ {IoSpecKind::Access, {"DIRECT", "SEQUENTIAL", "STREAM"}}, {IoSpecKind::Action, {"READ", "READWRITE", "WRITE"}}, {IoSpecKind::Advance, {"NO", "YES"}}, {IoSpecKind::Asynchronous, {"NO", "YES"}}, {IoSpecKind::Blank, {"NULL", "ZERO"}}, {IoSpecKind::Decimal, {"COMMA", "POINT"}}, {IoSpecKind::Delim, {"APOSTROPHE", "NONE", "QUOTE"}}, {IoSpecKind::Encoding, {"DEFAULT", "UTF-8"}}, {IoSpecKind::Form, {"FORMATTED", "UNFORMATTED"}}, {IoSpecKind::Pad, {"NO", "YES"}}, {IoSpecKind::Position, {"APPEND", "ASIS", "REWIND"}}, {IoSpecKind::Round, {"COMPATIBLE", "DOWN", "NEAREST", "PROCESSOR_DEFINED", "UP", "ZERO"}}, {IoSpecKind::Sign, {"PLUS", "PROCESSOR_DEFINED", "SUPPRESS"}}, {IoSpecKind::Status, // Open values; Close values are {"DELETE", "KEEP"}. {"NEW", "OLD", "REPLACE", "SCRATCH", "UNKNOWN"}}, {IoSpecKind::Carriagecontrol, {"LIST", "FORTRAN", "NONE"}}, {IoSpecKind::Convert, {"BIG_ENDIAN", "LITTLE_ENDIAN", "NATIVE"}}, {IoSpecKind::Dispose, {"DELETE", "KEEP"}}, }; auto upper{parser::ToUpperCaseLetters(value)}; if (specValues.at(specKind).count(upper) == 0) { if (specKind == IoSpecKind::Access && upper == "APPEND") { if (context_.languageFeatures().ShouldWarn( common::LanguageFeature::OpenAccessAppend)) { context_.Say(source, "ACCESS='%s' interpreted as POSITION='%s'"_en_US, value, upper); } } else { context_.Say(source, "Invalid %s value '%s'"_err_en_US, parser::ToUpperCaseLetters(common::EnumToString(specKind)), value); } } } // CheckForRequiredSpecifier and CheckForProhibitedSpecifier functions // need conditions to check, and string arguments to insert into a message. // An IoSpecKind provides both an absence/presence condition and a string // argument (its name). A (condition, string) pair provides an arbitrary // condition and an arbitrary string. void IoChecker::CheckForRequiredSpecifier(IoSpecKind specKind) const { if (!specifierSet_.test(specKind)) { context_.Say("%s statement must have a %s specifier"_err_en_US, parser::ToUpperCaseLetters(common::EnumToString(stmt_)), parser::ToUpperCaseLetters(common::EnumToString(specKind))); } } void IoChecker::CheckForRequiredSpecifier( bool condition, const std::string &s) const { if (!condition) { context_.Say("%s statement must have a %s specifier"_err_en_US, parser::ToUpperCaseLetters(common::EnumToString(stmt_)), s); } } void IoChecker::CheckForRequiredSpecifier( IoSpecKind specKind1, IoSpecKind specKind2) const { if (specifierSet_.test(specKind1) && !specifierSet_.test(specKind2)) { context_.Say("If %s appears, %s must also appear"_err_en_US, parser::ToUpperCaseLetters(common::EnumToString(specKind1)), parser::ToUpperCaseLetters(common::EnumToString(specKind2))); } } void IoChecker::CheckForRequiredSpecifier( IoSpecKind specKind, bool condition, const std::string &s) const { if (specifierSet_.test(specKind) && !condition) { context_.Say("If %s appears, %s must also appear"_err_en_US, parser::ToUpperCaseLetters(common::EnumToString(specKind)), s); } } void IoChecker::CheckForRequiredSpecifier( bool condition, const std::string &s, IoSpecKind specKind) const { if (condition && !specifierSet_.test(specKind)) { context_.Say("If %s appears, %s must also appear"_err_en_US, s, parser::ToUpperCaseLetters(common::EnumToString(specKind))); } } void IoChecker::CheckForRequiredSpecifier(bool condition1, const std::string &s1, bool condition2, const std::string &s2) const { if (condition1 && !condition2) { context_.Say("If %s appears, %s must also appear"_err_en_US, s1, s2); } } void IoChecker::CheckForProhibitedSpecifier(IoSpecKind specKind) const { if (specifierSet_.test(specKind)) { context_.Say("%s statement must not have a %s specifier"_err_en_US, parser::ToUpperCaseLetters(common::EnumToString(stmt_)), parser::ToUpperCaseLetters(common::EnumToString(specKind))); } } void IoChecker::CheckForProhibitedSpecifier( IoSpecKind specKind1, IoSpecKind specKind2) const { if (specifierSet_.test(specKind1) && specifierSet_.test(specKind2)) { context_.Say("If %s appears, %s must not appear"_err_en_US, parser::ToUpperCaseLetters(common::EnumToString(specKind1)), parser::ToUpperCaseLetters(common::EnumToString(specKind2))); } } void IoChecker::CheckForProhibitedSpecifier( IoSpecKind specKind, bool condition, const std::string &s) const { if (specifierSet_.test(specKind) && condition) { context_.Say("If %s appears, %s must not appear"_err_en_US, parser::ToUpperCaseLetters(common::EnumToString(specKind)), s); } } void IoChecker::CheckForProhibitedSpecifier( bool condition, const std::string &s, IoSpecKind specKind) const { if (condition && specifierSet_.test(specKind)) { context_.Say("If %s appears, %s must not appear"_err_en_US, s, parser::ToUpperCaseLetters(common::EnumToString(specKind))); } } template <typename A> void IoChecker::CheckForDefinableVariable( const A &variable, const std::string &s) const { if (const auto *var{parser::Unwrap<parser::Variable>(variable)}) { if (auto expr{AnalyzeExpr(context_, *var)}) { auto at{var->GetSource()}; if (auto whyNot{WhyNotModifiable(at, *expr, context_.FindScope(at), true /*vectorSubscriptIsOk*/)}) { const Symbol *base{GetFirstSymbol(*expr)}; context_ .Say(at, "%s variable '%s' must be definable"_err_en_US, s, (base ? base->name() : at).ToString()) .Attach(std::move(*whyNot)); } } } } void IoChecker::CheckForPureSubprogram() const { // C1597 CHECK(context_.location()); if (const Scope * scope{context_.globalScope().FindScope(*context_.location())}) { if (FindPureProcedureContaining(*scope)) { context_.Say( "External I/O is not allowed in a pure subprogram"_err_en_US); } } } } // namespace Fortran::semantics