Mercurial > hg > CbC > CbC_llvm
view flang/runtime/io-api.cpp @ 227:21e6aa2e49ef
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| author | Shinji KONO <kono@ie.u-ryukyu.ac.jp> |
|---|---|
| date | Mon, 19 Jul 2021 06:57:16 +0900 |
| parents | 5f17cb93ff66 |
| children | c4bab56944e8 |
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//===-- runtime/io-api.cpp --------------------------------------*- C++ -*-===// // // 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 // //===----------------------------------------------------------------------===// // Implements the I/O statement API #include "io-api.h" #include "descriptor-io.h" #include "descriptor.h" #include "edit-input.h" #include "edit-output.h" #include "environment.h" #include "format.h" #include "io-stmt.h" #include "memory.h" #include "terminator.h" #include "tools.h" #include "unit.h" #include <cstdlib> #include <memory> namespace Fortran::runtime::io { const char *InquiryKeywordHashDecode( char *buffer, std::size_t n, InquiryKeywordHash hash) { if (n < 1) { return nullptr; } char *p{buffer + n}; *--p = '\0'; while (hash > 1) { if (p < buffer) { return nullptr; } *--p = 'A' + (hash % 26); hash /= 26; } return hash == 1 ? p : nullptr; } template <Direction DIR> Cookie BeginInternalArrayListIO(const Descriptor &descriptor, void ** /*scratchArea*/, std::size_t /*scratchBytes*/, const char *sourceFile, int sourceLine) { Terminator oom{sourceFile, sourceLine}; return &New<InternalListIoStatementState<DIR>>{oom}( descriptor, sourceFile, sourceLine) .release() ->ioStatementState(); } Cookie IONAME(BeginInternalArrayListOutput)(const Descriptor &descriptor, void **scratchArea, std::size_t scratchBytes, const char *sourceFile, int sourceLine) { return BeginInternalArrayListIO<Direction::Output>( descriptor, scratchArea, scratchBytes, sourceFile, sourceLine); } Cookie IONAME(BeginInternalArrayListInput)(const Descriptor &descriptor, void **scratchArea, std::size_t scratchBytes, const char *sourceFile, int sourceLine) { return BeginInternalArrayListIO<Direction::Input>( descriptor, scratchArea, scratchBytes, sourceFile, sourceLine); } template <Direction DIR> Cookie BeginInternalArrayFormattedIO(const Descriptor &descriptor, const char *format, std::size_t formatLength, void ** /*scratchArea*/, std::size_t /*scratchBytes*/, const char *sourceFile, int sourceLine) { Terminator oom{sourceFile, sourceLine}; return &New<InternalFormattedIoStatementState<DIR>>{oom}( descriptor, format, formatLength, sourceFile, sourceLine) .release() ->ioStatementState(); } Cookie IONAME(BeginInternalArrayFormattedOutput)(const Descriptor &descriptor, const char *format, std::size_t formatLength, void **scratchArea, std::size_t scratchBytes, const char *sourceFile, int sourceLine) { return BeginInternalArrayFormattedIO<Direction::Output>(descriptor, format, formatLength, scratchArea, scratchBytes, sourceFile, sourceLine); } Cookie IONAME(BeginInternalArrayFormattedInput)(const Descriptor &descriptor, const char *format, std::size_t formatLength, void **scratchArea, std::size_t scratchBytes, const char *sourceFile, int sourceLine) { return BeginInternalArrayFormattedIO<Direction::Input>(descriptor, format, formatLength, scratchArea, scratchBytes, sourceFile, sourceLine); } template <Direction DIR> Cookie BeginInternalListIO( std::conditional_t<DIR == Direction::Input, const char, char> *internal, std::size_t internalLength, void ** /*scratchArea*/, std::size_t /*scratchBytes*/, const char *sourceFile, int sourceLine) { Terminator oom{sourceFile, sourceLine}; return &New<InternalListIoStatementState<DIR>>{oom}( internal, internalLength, sourceFile, sourceLine) .release() ->ioStatementState(); } Cookie IONAME(BeginInternalListOutput)(char *internal, std::size_t internalLength, void **scratchArea, std::size_t scratchBytes, const char *sourceFile, int sourceLine) { return BeginInternalListIO<Direction::Output>(internal, internalLength, scratchArea, scratchBytes, sourceFile, sourceLine); } Cookie IONAME(BeginInternalListInput)(const char *internal, std::size_t internalLength, void **scratchArea, std::size_t scratchBytes, const char *sourceFile, int sourceLine) { return BeginInternalListIO<Direction::Input>(internal, internalLength, scratchArea, scratchBytes, sourceFile, sourceLine); } template <Direction DIR> Cookie BeginInternalFormattedIO( std::conditional_t<DIR == Direction::Input, const char, char> *internal, std::size_t internalLength, const char *format, std::size_t formatLength, void ** /*scratchArea*/, std::size_t /*scratchBytes*/, const char *sourceFile, int sourceLine) { Terminator oom{sourceFile, sourceLine}; return &New<InternalFormattedIoStatementState<DIR>>{oom}( internal, internalLength, format, formatLength, sourceFile, sourceLine) .release() ->ioStatementState(); } Cookie IONAME(BeginInternalFormattedOutput)(char *internal, std::size_t internalLength, const char *format, std::size_t formatLength, void **scratchArea, std::size_t scratchBytes, const char *sourceFile, int sourceLine) { return BeginInternalFormattedIO<Direction::Output>(internal, internalLength, format, formatLength, scratchArea, scratchBytes, sourceFile, sourceLine); } Cookie IONAME(BeginInternalFormattedInput)(const char *internal, std::size_t internalLength, const char *format, std::size_t formatLength, void **scratchArea, std::size_t scratchBytes, const char *sourceFile, int sourceLine) { return BeginInternalFormattedIO<Direction::Input>(internal, internalLength, format, formatLength, scratchArea, scratchBytes, sourceFile, sourceLine); } template <Direction DIR, template <Direction> class STATE, typename... A> Cookie BeginExternalListIO(const char *what, int unitNumber, const char *sourceFile, int sourceLine, A &&...xs) { Terminator terminator{sourceFile, sourceLine}; if (unitNumber == DefaultUnit) { unitNumber = DIR == Direction::Input ? 5 : 6; } ExternalFileUnit &unit{ExternalFileUnit::LookUpOrCreateAnonymous( unitNumber, DIR, false /*!unformatted*/, terminator)}; if (ChildIo * child{unit.GetChildIo()}) { return child->CheckFormattingAndDirection(terminator, what, false, DIR) ? &child->BeginIoStatement<ChildListIoStatementState<DIR>>( *child, sourceFile, sourceLine) : nullptr; } else { if (unit.access == Access::Direct) { terminator.Crash("%s attempted on direct access file", what); return nullptr; } if (!unit.isUnformatted.has_value()) { unit.isUnformatted = false; } if (*unit.isUnformatted) { terminator.Crash("%s attempted on unformatted file", what); return nullptr; } IoErrorHandler handler{terminator}; unit.SetDirection(DIR, handler); IoStatementState &io{unit.BeginIoStatement<STATE<DIR>>( std::forward<A>(xs)..., unit, sourceFile, sourceLine)}; return &io; } } Cookie IONAME(BeginExternalListOutput)( ExternalUnit unitNumber, const char *sourceFile, int sourceLine) { return BeginExternalListIO<Direction::Output, ExternalListIoStatementState>( "List-directed output", unitNumber, sourceFile, sourceLine); } Cookie IONAME(BeginExternalListInput)( ExternalUnit unitNumber, const char *sourceFile, int sourceLine) { return BeginExternalListIO<Direction::Input, ExternalListIoStatementState>( "List-directed input", unitNumber, sourceFile, sourceLine); } template <Direction DIR> Cookie BeginExternalFormattedIO(const char *format, std::size_t formatLength, ExternalUnit unitNumber, const char *sourceFile, int sourceLine) { Terminator terminator{sourceFile, sourceLine}; if (unitNumber == DefaultUnit) { unitNumber = DIR == Direction::Input ? 5 : 6; } ExternalFileUnit &unit{ExternalFileUnit::LookUpOrCreateAnonymous( unitNumber, DIR, false /*!unformatted*/, terminator)}; if (ChildIo * child{unit.GetChildIo()}) { return child->CheckFormattingAndDirection(terminator, DIR == Direction::Output ? "formatted output" : "formatted input", false, DIR) ? &child->BeginIoStatement<ChildFormattedIoStatementState<DIR>>( *child, sourceFile, sourceLine) : nullptr; } else { if (!unit.isUnformatted.has_value()) { unit.isUnformatted = false; } if (*unit.isUnformatted) { terminator.Crash("Formatted I/O attempted on unformatted file"); return nullptr; } IoErrorHandler handler{terminator}; unit.SetDirection(DIR, handler); IoStatementState &io{ unit.BeginIoStatement<ExternalFormattedIoStatementState<DIR>>( unit, format, formatLength, sourceFile, sourceLine)}; return &io; } } Cookie IONAME(BeginExternalFormattedOutput)(const char *format, std::size_t formatLength, ExternalUnit unitNumber, const char *sourceFile, int sourceLine) { return BeginExternalFormattedIO<Direction::Output>( format, formatLength, unitNumber, sourceFile, sourceLine); } Cookie IONAME(BeginExternalFormattedInput)(const char *format, std::size_t formatLength, ExternalUnit unitNumber, const char *sourceFile, int sourceLine) { return BeginExternalFormattedIO<Direction::Input>( format, formatLength, unitNumber, sourceFile, sourceLine); } template <Direction DIR> Cookie BeginUnformattedIO( ExternalUnit unitNumber, const char *sourceFile, int sourceLine) { Terminator terminator{sourceFile, sourceLine}; ExternalFileUnit &unit{ExternalFileUnit::LookUpOrCreateAnonymous( unitNumber, DIR, true /*unformatted*/, terminator)}; if (ChildIo * child{unit.GetChildIo()}) { return child->CheckFormattingAndDirection(terminator, DIR == Direction::Output ? "unformatted output" : "unformatted input", true, DIR) ? &child->BeginIoStatement<ChildUnformattedIoStatementState<DIR>>( *child, sourceFile, sourceLine) : nullptr; } else { if (!unit.isUnformatted.has_value()) { unit.isUnformatted = true; } if (!*unit.isUnformatted) { terminator.Crash("Unformatted I/O attempted on formatted file"); } IoStatementState &io{ unit.BeginIoStatement<ExternalUnformattedIoStatementState<DIR>>( unit, sourceFile, sourceLine)}; IoErrorHandler handler{terminator}; unit.SetDirection(DIR, handler); if constexpr (DIR == Direction::Output) { if (unit.access == Access::Sequential && !unit.isFixedRecordLength) { // Create space for (sub)record header to be completed by // ExternalUnformattedIoStatementState<Direction::Output>::EndIoStatement() unit.recordLength.reset(); // in case of prior BACKSPACE io.Emit("\0\0\0\0", 4); // placeholder for record length header } } return &io; } } Cookie IONAME(BeginUnformattedOutput)( ExternalUnit unitNumber, const char *sourceFile, int sourceLine) { return BeginUnformattedIO<Direction::Output>( unitNumber, sourceFile, sourceLine); } Cookie IONAME(BeginUnformattedInput)( ExternalUnit unitNumber, const char *sourceFile, int sourceLine) { return BeginUnformattedIO<Direction::Input>( unitNumber, sourceFile, sourceLine); } Cookie IONAME(BeginOpenUnit)( // OPEN(without NEWUNIT=) ExternalUnit unitNumber, const char *sourceFile, int sourceLine) { bool wasExtant{false}; Terminator terminator{sourceFile, sourceLine}; ExternalFileUnit &unit{ ExternalFileUnit::LookUpOrCreate(unitNumber, terminator, wasExtant)}; return &unit.BeginIoStatement<OpenStatementState>( unit, wasExtant, sourceFile, sourceLine); } Cookie IONAME(BeginOpenNewUnit)( // OPEN(NEWUNIT=j) const char *sourceFile, int sourceLine) { Terminator terminator{sourceFile, sourceLine}; ExternalFileUnit &unit{ExternalFileUnit::NewUnit(terminator)}; return &unit.BeginIoStatement<OpenStatementState>( unit, false /*was an existing file*/, sourceFile, sourceLine); } Cookie IONAME(BeginClose)( ExternalUnit unitNumber, const char *sourceFile, int sourceLine) { if (ExternalFileUnit * unit{ExternalFileUnit::LookUpForClose(unitNumber)}) { return &unit->BeginIoStatement<CloseStatementState>( *unit, sourceFile, sourceLine); } else { // CLOSE(UNIT=bad unit) is just a no-op Terminator oom{sourceFile, sourceLine}; return &New<NoopCloseStatementState>{oom}(sourceFile, sourceLine) .release() ->ioStatementState(); } } Cookie IONAME(BeginFlush)( ExternalUnit unitNumber, const char *sourceFile, int sourceLine) { Terminator terminator{sourceFile, sourceLine}; ExternalFileUnit &unit{ ExternalFileUnit::LookUpOrCrash(unitNumber, terminator)}; return &unit.BeginIoStatement<ExternalMiscIoStatementState>( unit, ExternalMiscIoStatementState::Flush, sourceFile, sourceLine); } Cookie IONAME(BeginBackspace)( ExternalUnit unitNumber, const char *sourceFile, int sourceLine) { Terminator terminator{sourceFile, sourceLine}; ExternalFileUnit &unit{ ExternalFileUnit::LookUpOrCrash(unitNumber, terminator)}; return &unit.BeginIoStatement<ExternalMiscIoStatementState>( unit, ExternalMiscIoStatementState::Backspace, sourceFile, sourceLine); } Cookie IONAME(BeginEndfile)( ExternalUnit unitNumber, const char *sourceFile, int sourceLine) { Terminator terminator{sourceFile, sourceLine}; ExternalFileUnit &unit{ExternalFileUnit::LookUpOrCreateAnonymous( unitNumber, Direction::Output, std::nullopt, terminator)}; return &unit.BeginIoStatement<ExternalMiscIoStatementState>( unit, ExternalMiscIoStatementState::Endfile, sourceFile, sourceLine); } Cookie IONAME(BeginRewind)( ExternalUnit unitNumber, const char *sourceFile, int sourceLine) { Terminator terminator{sourceFile, sourceLine}; ExternalFileUnit &unit{ExternalFileUnit::LookUpOrCreateAnonymous( unitNumber, Direction::Input, std::nullopt, terminator)}; return &unit.BeginIoStatement<ExternalMiscIoStatementState>( unit, ExternalMiscIoStatementState::Rewind, sourceFile, sourceLine); } Cookie IONAME(BeginInquireUnit)( ExternalUnit unitNumber, const char *sourceFile, int sourceLine) { if (ExternalFileUnit * unit{ExternalFileUnit::LookUp(unitNumber)}) { return &unit->BeginIoStatement<InquireUnitState>( *unit, sourceFile, sourceLine); } else { // INQUIRE(UNIT=unrecognized unit) Terminator oom{sourceFile, sourceLine}; return &New<InquireNoUnitState>{oom}(sourceFile, sourceLine) .release() ->ioStatementState(); } } Cookie IONAME(BeginInquireFile)(const char *path, std::size_t pathLength, const char *sourceFile, int sourceLine) { Terminator oom{sourceFile, sourceLine}; auto trimmed{ SaveDefaultCharacter(path, TrimTrailingSpaces(path, pathLength), oom)}; if (ExternalFileUnit * unit{ExternalFileUnit::LookUp(trimmed.get())}) { // INQUIRE(FILE=) to a connected unit return &unit->BeginIoStatement<InquireUnitState>( *unit, sourceFile, sourceLine); } else { return &New<InquireUnconnectedFileState>{oom}( std::move(trimmed), sourceFile, sourceLine) .release() ->ioStatementState(); } } Cookie IONAME(BeginInquireIoLength)(const char *sourceFile, int sourceLine) { Terminator oom{sourceFile, sourceLine}; return &New<InquireIOLengthState>{oom}(sourceFile, sourceLine) .release() ->ioStatementState(); } // Control list items void IONAME(EnableHandlers)(Cookie cookie, bool hasIoStat, bool hasErr, bool hasEnd, bool hasEor, bool hasIoMsg) { IoErrorHandler &handler{cookie->GetIoErrorHandler()}; if (hasIoStat) { handler.HasIoStat(); } if (hasErr) { handler.HasErrLabel(); } if (hasEnd) { handler.HasEndLabel(); } if (hasEor) { handler.HasEorLabel(); } if (hasIoMsg) { handler.HasIoMsg(); } } static bool YesOrNo(const char *keyword, std::size_t length, const char *what, IoErrorHandler &handler) { static const char *keywords[]{"YES", "NO", nullptr}; switch (IdentifyValue(keyword, length, keywords)) { case 0: return true; case 1: return false; default: handler.SignalError(IostatErrorInKeyword, "Invalid %s='%.*s'", what, static_cast<int>(length), keyword); return false; } } bool IONAME(SetAdvance)( Cookie cookie, const char *keyword, std::size_t length) { IoStatementState &io{*cookie}; bool nonAdvancing{ !YesOrNo(keyword, length, "ADVANCE", io.GetIoErrorHandler())}; if (nonAdvancing && io.GetConnectionState().access == Access::Direct) { io.GetIoErrorHandler().SignalError( "Non-advancing I/O attempted on direct access file"); } else { io.mutableModes().nonAdvancing = nonAdvancing; } return true; } bool IONAME(SetBlank)(Cookie cookie, const char *keyword, std::size_t length) { IoStatementState &io{*cookie}; ConnectionState &connection{io.GetConnectionState()}; static const char *keywords[]{"NULL", "ZERO", nullptr}; switch (IdentifyValue(keyword, length, keywords)) { case 0: connection.modes.editingFlags &= ~blankZero; return true; case 1: connection.modes.editingFlags |= blankZero; return true; default: io.GetIoErrorHandler().SignalError(IostatErrorInKeyword, "Invalid BLANK='%.*s'", static_cast<int>(length), keyword); return false; } } bool IONAME(SetDecimal)( Cookie cookie, const char *keyword, std::size_t length) { IoStatementState &io{*cookie}; ConnectionState &connection{io.GetConnectionState()}; static const char *keywords[]{"COMMA", "POINT", nullptr}; switch (IdentifyValue(keyword, length, keywords)) { case 0: connection.modes.editingFlags |= decimalComma; return true; case 1: connection.modes.editingFlags &= ~decimalComma; return true; default: io.GetIoErrorHandler().SignalError(IostatErrorInKeyword, "Invalid DECIMAL='%.*s'", static_cast<int>(length), keyword); return false; } } bool IONAME(SetDelim)(Cookie cookie, const char *keyword, std::size_t length) { IoStatementState &io{*cookie}; ConnectionState &connection{io.GetConnectionState()}; static const char *keywords[]{"APOSTROPHE", "QUOTE", "NONE", nullptr}; switch (IdentifyValue(keyword, length, keywords)) { case 0: connection.modes.delim = '\''; return true; case 1: connection.modes.delim = '"'; return true; case 2: connection.modes.delim = '\0'; return true; default: io.GetIoErrorHandler().SignalError(IostatErrorInKeyword, "Invalid DELIM='%.*s'", static_cast<int>(length), keyword); return false; } } bool IONAME(SetPad)(Cookie cookie, const char *keyword, std::size_t length) { IoStatementState &io{*cookie}; ConnectionState &connection{io.GetConnectionState()}; connection.modes.pad = YesOrNo(keyword, length, "PAD", io.GetIoErrorHandler()); return true; } bool IONAME(SetPos)(Cookie cookie, std::int64_t pos) { IoStatementState &io{*cookie}; ConnectionState &connection{io.GetConnectionState()}; if (connection.access != Access::Stream) { io.GetIoErrorHandler().SignalError( "REC= may not appear unless ACCESS='STREAM'"); return false; } if (pos < 1) { io.GetIoErrorHandler().SignalError( "POS=%zd is invalid", static_cast<std::intmax_t>(pos)); return false; } if (auto *unit{io.GetExternalFileUnit()}) { unit->SetPosition(pos); return true; } io.GetIoErrorHandler().Crash("SetPos() on internal unit"); return false; } bool IONAME(SetRec)(Cookie cookie, std::int64_t rec) { IoStatementState &io{*cookie}; ConnectionState &connection{io.GetConnectionState()}; if (connection.access != Access::Direct) { io.GetIoErrorHandler().SignalError( "REC= may not appear unless ACCESS='DIRECT'"); return false; } if (!connection.isFixedRecordLength || !connection.recordLength) { io.GetIoErrorHandler().SignalError("RECL= was not specified"); return false; } if (rec < 1) { io.GetIoErrorHandler().SignalError( "REC=%zd is invalid", static_cast<std::intmax_t>(rec)); return false; } connection.currentRecordNumber = rec; if (auto *unit{io.GetExternalFileUnit()}) { unit->SetPosition((rec - 1) * *connection.recordLength); } return true; } bool IONAME(SetRound)(Cookie cookie, const char *keyword, std::size_t length) { IoStatementState &io{*cookie}; ConnectionState &connection{io.GetConnectionState()}; static const char *keywords[]{"UP", "DOWN", "ZERO", "NEAREST", "COMPATIBLE", "PROCESSOR_DEFINED", nullptr}; switch (IdentifyValue(keyword, length, keywords)) { case 0: connection.modes.round = decimal::RoundUp; return true; case 1: connection.modes.round = decimal::RoundDown; return true; case 2: connection.modes.round = decimal::RoundToZero; return true; case 3: connection.modes.round = decimal::RoundNearest; return true; case 4: connection.modes.round = decimal::RoundCompatible; return true; case 5: connection.modes.round = executionEnvironment.defaultOutputRoundingMode; return true; default: io.GetIoErrorHandler().SignalError(IostatErrorInKeyword, "Invalid ROUND='%.*s'", static_cast<int>(length), keyword); return false; } } bool IONAME(SetSign)(Cookie cookie, const char *keyword, std::size_t length) { IoStatementState &io{*cookie}; ConnectionState &connection{io.GetConnectionState()}; static const char *keywords[]{"PLUS", "YES", "PROCESSOR_DEFINED", nullptr}; switch (IdentifyValue(keyword, length, keywords)) { case 0: connection.modes.editingFlags |= signPlus; return true; case 1: case 2: // processor default is SS connection.modes.editingFlags &= ~signPlus; return true; default: io.GetIoErrorHandler().SignalError(IostatErrorInKeyword, "Invalid SIGN='%.*s'", static_cast<int>(length), keyword); return false; } } bool IONAME(SetAccess)(Cookie cookie, const char *keyword, std::size_t length) { IoStatementState &io{*cookie}; auto *open{io.get_if<OpenStatementState>()}; if (!open) { io.GetIoErrorHandler().Crash( "SetAccess() called when not in an OPEN statement"); } static const char *keywords[]{ "SEQUENTIAL", "DIRECT", "STREAM", "APPEND", nullptr}; switch (IdentifyValue(keyword, length, keywords)) { case 0: open->set_access(Access::Sequential); break; case 1: open->set_access(Access::Direct); break; case 2: open->set_access(Access::Stream); break; case 3: // Sun Fortran extension ACCESS=APPEND: treat as if POSITION=APPEND open->set_position(Position::Append); break; default: open->SignalError(IostatErrorInKeyword, "Invalid ACCESS='%.*s'", static_cast<int>(length), keyword); } return true; } bool IONAME(SetAction)(Cookie cookie, const char *keyword, std::size_t length) { IoStatementState &io{*cookie}; auto *open{io.get_if<OpenStatementState>()}; if (!open) { io.GetIoErrorHandler().Crash( "SetAction() called when not in an OPEN statement"); } std::optional<Action> action; static const char *keywords[]{"READ", "WRITE", "READWRITE", nullptr}; switch (IdentifyValue(keyword, length, keywords)) { case 0: action = Action::Read; break; case 1: action = Action::Write; break; case 2: action = Action::ReadWrite; break; default: open->SignalError(IostatErrorInKeyword, "Invalid ACTION='%.*s'", static_cast<int>(length), keyword); return false; } RUNTIME_CHECK(io.GetIoErrorHandler(), action.has_value()); if (open->wasExtant()) { if ((*action != Action::Write) != open->unit().mayRead() || (*action != Action::Read) != open->unit().mayWrite()) { open->SignalError("ACTION= may not be changed on an open unit"); } } open->set_action(*action); return true; } bool IONAME(SetAsynchronous)( Cookie cookie, const char *keyword, std::size_t length) { IoStatementState &io{*cookie}; auto *open{io.get_if<OpenStatementState>()}; if (!open) { io.GetIoErrorHandler().Crash( "SetAsynchronous() called when not in an OPEN statement"); } static const char *keywords[]{"YES", "NO", nullptr}; switch (IdentifyValue(keyword, length, keywords)) { case 0: open->unit().set_mayAsynchronous(true); return true; case 1: open->unit().set_mayAsynchronous(false); return true; default: open->SignalError(IostatErrorInKeyword, "Invalid ASYNCHRONOUS='%.*s'", static_cast<int>(length), keyword); return false; } } bool IONAME(SetCarriagecontrol)( Cookie cookie, const char *keyword, std::size_t length) { IoStatementState &io{*cookie}; auto *open{io.get_if<OpenStatementState>()}; if (!open) { io.GetIoErrorHandler().Crash( "SetCarriageControl() called when not in an OPEN statement"); } static const char *keywords[]{"LIST", "FORTRAN", "NONE", nullptr}; switch (IdentifyValue(keyword, length, keywords)) { case 0: return true; case 1: case 2: open->SignalError(IostatErrorInKeyword, "Unimplemented CARRIAGECONTROL='%.*s'", static_cast<int>(length), keyword); return false; default: open->SignalError(IostatErrorInKeyword, "Invalid CARRIAGECONTROL='%.*s'", static_cast<int>(length), keyword); return false; } } bool IONAME(SetConvert)( Cookie cookie, const char *keyword, std::size_t length) { IoStatementState &io{*cookie}; auto *open{io.get_if<OpenStatementState>()}; if (!open) { io.GetIoErrorHandler().Crash( "SetConvert() called when not in an OPEN statement"); } if (auto convert{GetConvertFromString(keyword, length)}) { open->set_convert(*convert); return true; } else { open->SignalError(IostatErrorInKeyword, "Invalid CONVERT='%.*s'", static_cast<int>(length), keyword); return false; } } bool IONAME(SetEncoding)( Cookie cookie, const char *keyword, std::size_t length) { IoStatementState &io{*cookie}; auto *open{io.get_if<OpenStatementState>()}; if (!open) { io.GetIoErrorHandler().Crash( "SetEncoding() called when not in an OPEN statement"); } bool isUTF8{false}; static const char *keywords[]{"UTF-8", "DEFAULT", nullptr}; switch (IdentifyValue(keyword, length, keywords)) { case 0: isUTF8 = true; break; case 1: isUTF8 = false; break; default: open->SignalError(IostatErrorInKeyword, "Invalid ENCODING='%.*s'", static_cast<int>(length), keyword); } if (isUTF8 != open->unit().isUTF8) { if (open->wasExtant()) { open->SignalError("ENCODING= may not be changed on an open unit"); } open->unit().isUTF8 = isUTF8; } return true; } bool IONAME(SetForm)(Cookie cookie, const char *keyword, std::size_t length) { IoStatementState &io{*cookie}; auto *open{io.get_if<OpenStatementState>()}; if (!open) { io.GetIoErrorHandler().Crash( "SetForm() called when not in an OPEN statement"); } static const char *keywords[]{"FORMATTED", "UNFORMATTED", nullptr}; switch (IdentifyValue(keyword, length, keywords)) { case 0: open->set_isUnformatted(false); break; case 1: open->set_isUnformatted(true); break; default: open->SignalError(IostatErrorInKeyword, "Invalid FORM='%.*s'", static_cast<int>(length), keyword); } return true; } bool IONAME(SetPosition)( Cookie cookie, const char *keyword, std::size_t length) { IoStatementState &io{*cookie}; auto *open{io.get_if<OpenStatementState>()}; if (!open) { io.GetIoErrorHandler().Crash( "SetPosition() called when not in an OPEN statement"); } static const char *positions[]{"ASIS", "REWIND", "APPEND", nullptr}; switch (IdentifyValue(keyword, length, positions)) { case 0: open->set_position(Position::AsIs); return true; case 1: open->set_position(Position::Rewind); return true; case 2: open->set_position(Position::Append); return true; default: io.GetIoErrorHandler().SignalError(IostatErrorInKeyword, "Invalid POSITION='%.*s'", static_cast<int>(length), keyword); } return true; } bool IONAME(SetRecl)(Cookie cookie, std::size_t n) { IoStatementState &io{*cookie}; auto *open{io.get_if<OpenStatementState>()}; if (!open) { io.GetIoErrorHandler().Crash( "SetRecl() called when not in an OPEN statement"); } if (n <= 0) { io.GetIoErrorHandler().SignalError("RECL= must be greater than zero"); } if (open->wasExtant() && open->unit().isFixedRecordLength && open->unit().recordLength.value_or(n) != static_cast<std::int64_t>(n)) { open->SignalError("RECL= may not be changed for an open unit"); } open->unit().isFixedRecordLength = true; open->unit().recordLength = n; return true; } bool IONAME(SetStatus)(Cookie cookie, const char *keyword, std::size_t length) { IoStatementState &io{*cookie}; if (auto *open{io.get_if<OpenStatementState>()}) { static const char *statuses[]{ "OLD", "NEW", "SCRATCH", "REPLACE", "UNKNOWN", nullptr}; switch (IdentifyValue(keyword, length, statuses)) { case 0: open->set_status(OpenStatus::Old); return true; case 1: open->set_status(OpenStatus::New); return true; case 2: open->set_status(OpenStatus::Scratch); return true; case 3: open->set_status(OpenStatus::Replace); return true; case 4: open->set_status(OpenStatus::Unknown); return true; default: io.GetIoErrorHandler().SignalError(IostatErrorInKeyword, "Invalid STATUS='%.*s'", static_cast<int>(length), keyword); } return false; } if (auto *close{io.get_if<CloseStatementState>()}) { static const char *statuses[]{"KEEP", "DELETE", nullptr}; switch (IdentifyValue(keyword, length, statuses)) { case 0: close->set_status(CloseStatus::Keep); return true; case 1: close->set_status(CloseStatus::Delete); return true; default: io.GetIoErrorHandler().SignalError(IostatErrorInKeyword, "Invalid STATUS='%.*s'", static_cast<int>(length), keyword); } return false; } if (io.get_if<NoopCloseStatementState>()) { return true; // don't bother validating STATUS= in a no-op CLOSE } io.GetIoErrorHandler().Crash( "SetStatus() called when not in an OPEN or CLOSE statement"); } bool IONAME(SetFile)(Cookie cookie, const char *path, std::size_t chars) { IoStatementState &io{*cookie}; if (auto *open{io.get_if<OpenStatementState>()}) { open->set_path(path, chars); return true; } io.GetIoErrorHandler().Crash( "SetFile() called when not in an OPEN statement"); return false; } bool IONAME(GetNewUnit)(Cookie cookie, int &unit, int kind) { IoStatementState &io{*cookie}; auto *open{io.get_if<OpenStatementState>()}; if (!open) { io.GetIoErrorHandler().Crash( "GetNewUnit() called when not in an OPEN statement"); } if (!SetInteger(unit, kind, open->unit().unitNumber())) { open->SignalError("GetNewUnit(): Bad INTEGER kind(%d) for result"); } return true; } // Data transfers bool IONAME(OutputDescriptor)(Cookie cookie, const Descriptor &descriptor) { return descr::DescriptorIO<Direction::Output>(*cookie, descriptor); } bool IONAME(InputDescriptor)(Cookie cookie, const Descriptor &descriptor) { return descr::DescriptorIO<Direction::Input>(*cookie, descriptor); } bool IONAME(OutputUnformattedBlock)(Cookie cookie, const char *x, std::size_t length, std::size_t elementBytes) { IoStatementState &io{*cookie}; if (auto *unf{io.get_if< ExternalUnformattedIoStatementState<Direction::Output>>()}) { return unf->Emit(x, length, elementBytes); } io.GetIoErrorHandler().Crash("OutputUnformattedBlock() called for an I/O " "statement that is not unformatted output"); return false; } bool IONAME(InputUnformattedBlock)( Cookie cookie, char *x, std::size_t length, std::size_t elementBytes) { IoStatementState &io{*cookie}; io.BeginReadingRecord(); if (io.GetIoErrorHandler().InError()) { return false; } if (auto *unf{ io.get_if<ExternalUnformattedIoStatementState<Direction::Input>>()}) { return unf->Receive(x, length, elementBytes); } io.GetIoErrorHandler().Crash("InputUnformattedBlock() called for an I/O " "statement that is not unformatted output"); return false; } bool IONAME(OutputInteger64)(Cookie cookie, std::int64_t n) { cookie->CheckFormattedStmtType<Direction::Output>("OutputInteger64"); StaticDescriptor staticDescriptor; Descriptor &descriptor{staticDescriptor.descriptor()}; descriptor.Establish( TypeCategory::Integer, sizeof n, reinterpret_cast<void *>(&n), 0); return descr::DescriptorIO<Direction::Output>(*cookie, descriptor); } bool IONAME(InputInteger)(Cookie cookie, std::int64_t &n, int kind) { cookie->CheckFormattedStmtType<Direction::Input>("InputInteger"); StaticDescriptor staticDescriptor; Descriptor &descriptor{staticDescriptor.descriptor()}; descriptor.Establish( TypeCategory::Integer, kind, reinterpret_cast<void *>(&n), 0); return descr::DescriptorIO<Direction::Input>(*cookie, descriptor); } bool IONAME(OutputReal32)(Cookie cookie, float x) { cookie->CheckFormattedStmtType<Direction::Output>("OutputReal32"); StaticDescriptor staticDescriptor; Descriptor &descriptor{staticDescriptor.descriptor()}; descriptor.Establish(TypeCategory::Real, 4, reinterpret_cast<void *>(&x), 0); return descr::DescriptorIO<Direction::Output>(*cookie, descriptor); } bool IONAME(OutputReal64)(Cookie cookie, double x) { cookie->CheckFormattedStmtType<Direction::Output>("OutputReal64"); StaticDescriptor staticDescriptor; Descriptor &descriptor{staticDescriptor.descriptor()}; descriptor.Establish(TypeCategory::Real, 8, reinterpret_cast<void *>(&x), 0); return descr::DescriptorIO<Direction::Output>(*cookie, descriptor); } bool IONAME(InputReal32)(Cookie cookie, float &x) { cookie->CheckFormattedStmtType<Direction::Input>("InputReal32"); StaticDescriptor staticDescriptor; Descriptor &descriptor{staticDescriptor.descriptor()}; descriptor.Establish(TypeCategory::Real, 4, reinterpret_cast<void *>(&x), 0); return descr::DescriptorIO<Direction::Input>(*cookie, descriptor); } bool IONAME(InputReal64)(Cookie cookie, double &x) { cookie->CheckFormattedStmtType<Direction::Input>("InputReal64"); StaticDescriptor staticDescriptor; Descriptor &descriptor{staticDescriptor.descriptor()}; descriptor.Establish(TypeCategory::Real, 8, reinterpret_cast<void *>(&x), 0); return descr::DescriptorIO<Direction::Input>(*cookie, descriptor); } bool IONAME(OutputComplex32)(Cookie cookie, float r, float i) { cookie->CheckFormattedStmtType<Direction::Output>("OutputComplex32"); float z[2]{r, i}; StaticDescriptor staticDescriptor; Descriptor &descriptor{staticDescriptor.descriptor()}; descriptor.Establish( TypeCategory::Complex, 4, reinterpret_cast<void *>(&z), 0); return descr::DescriptorIO<Direction::Output>(*cookie, descriptor); } bool IONAME(OutputComplex64)(Cookie cookie, double r, double i) { cookie->CheckFormattedStmtType<Direction::Output>("OutputComplex64"); double z[2]{r, i}; StaticDescriptor staticDescriptor; Descriptor &descriptor{staticDescriptor.descriptor()}; descriptor.Establish( TypeCategory::Complex, 8, reinterpret_cast<void *>(&z), 0); return descr::DescriptorIO<Direction::Output>(*cookie, descriptor); } bool IONAME(InputComplex32)(Cookie cookie, float z[2]) { cookie->CheckFormattedStmtType<Direction::Input>("InputComplex32"); StaticDescriptor staticDescriptor; Descriptor &descriptor{staticDescriptor.descriptor()}; descriptor.Establish( TypeCategory::Complex, 4, reinterpret_cast<void *>(z), 0); return descr::DescriptorIO<Direction::Input>(*cookie, descriptor); } bool IONAME(InputComplex64)(Cookie cookie, double z[2]) { cookie->CheckFormattedStmtType<Direction::Input>("InputComplex64"); StaticDescriptor staticDescriptor; Descriptor &descriptor{staticDescriptor.descriptor()}; descriptor.Establish( TypeCategory::Complex, 8, reinterpret_cast<void *>(z), 0); return descr::DescriptorIO<Direction::Input>(*cookie, descriptor); } bool IONAME(OutputCharacter)( Cookie cookie, const char *x, std::size_t length, int kind) { cookie->CheckFormattedStmtType<Direction::Output>("OutputCharacter"); StaticDescriptor staticDescriptor; Descriptor &descriptor{staticDescriptor.descriptor()}; descriptor.Establish( kind, length, reinterpret_cast<void *>(const_cast<char *>(x)), 0); return descr::DescriptorIO<Direction::Output>(*cookie, descriptor); } bool IONAME(OutputAscii)(Cookie cookie, const char *x, std::size_t length) { return IONAME(OutputCharacter(cookie, x, length, 1)); } bool IONAME(InputCharacter)( Cookie cookie, char *x, std::size_t length, int kind) { cookie->CheckFormattedStmtType<Direction::Input>("InputCharacter"); StaticDescriptor staticDescriptor; Descriptor &descriptor{staticDescriptor.descriptor()}; descriptor.Establish(kind, length, reinterpret_cast<void *>(x), 0); return descr::DescriptorIO<Direction::Input>(*cookie, descriptor); } bool IONAME(InputAscii)(Cookie cookie, char *x, std::size_t length) { return IONAME(InputCharacter(cookie, x, length, 1)); } bool IONAME(OutputLogical)(Cookie cookie, bool truth) { cookie->CheckFormattedStmtType<Direction::Output>("OutputLogical"); StaticDescriptor staticDescriptor; Descriptor &descriptor{staticDescriptor.descriptor()}; descriptor.Establish( TypeCategory::Logical, sizeof truth, reinterpret_cast<void *>(&truth), 0); return descr::DescriptorIO<Direction::Output>(*cookie, descriptor); } bool IONAME(InputLogical)(Cookie cookie, bool &truth) { cookie->CheckFormattedStmtType<Direction::Input>("InputLogical"); StaticDescriptor staticDescriptor; Descriptor &descriptor{staticDescriptor.descriptor()}; descriptor.Establish( TypeCategory::Logical, sizeof truth, reinterpret_cast<void *>(&truth), 0); return descr::DescriptorIO<Direction::Input>(*cookie, descriptor); } void IONAME(GetIoMsg)(Cookie cookie, char *msg, std::size_t length) { IoErrorHandler &handler{cookie->GetIoErrorHandler()}; if (handler.InError()) { // leave "msg" alone when no error handler.GetIoMsg(msg, length); } } bool IONAME(InquireCharacter)(Cookie cookie, InquiryKeywordHash inquiry, char *result, std::size_t length) { IoStatementState &io{*cookie}; return io.Inquire(inquiry, result, length); } bool IONAME(InquireLogical)( Cookie cookie, InquiryKeywordHash inquiry, bool &result) { IoStatementState &io{*cookie}; return io.Inquire(inquiry, result); } bool IONAME(InquirePendingId)(Cookie cookie, std::int64_t id, bool &result) { IoStatementState &io{*cookie}; return io.Inquire(HashInquiryKeyword("PENDING"), id, result); } bool IONAME(InquireInteger64)( Cookie cookie, InquiryKeywordHash inquiry, std::int64_t &result, int kind) { IoStatementState &io{*cookie}; std::int64_t n; if (io.Inquire(inquiry, n)) { SetInteger(result, kind, n); return true; } return false; } enum Iostat IONAME(EndIoStatement)(Cookie cookie) { IoStatementState &io{*cookie}; return static_cast<enum Iostat>(io.EndIoStatement()); } } // namespace Fortran::runtime::io