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llvm / llvm-project / flang / refs/heads/master / . / runtime / external-unit.cpp
blob: b48549d54587eb63f1843890439005083517f291 [file] [log] [blame]
//===-- runtime/external-unit.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
//
//===----------------------------------------------------------------------===//
//
// Implemenation of ExternalFileUnit for RT_USE_PSEUDO_FILE_UNIT=0.
//
//===----------------------------------------------------------------------===//
#include "io-error.h"
#include "lock.h"
#include "tools.h"
#include "unit-map.h"
#include "unit.h"
// NOTE: the header files above may define OpenMP declare target
// variables, so they have to be included unconditionally
// so that the offload entries are consistent between host and device.
#if !defined(RT_USE_PSEUDO_FILE_UNIT)
#include <cstdio>
#include <limits>
namespace Fortran::runtime::io {
// The per-unit data structures are created on demand so that Fortran I/O
// should work without a Fortran main program.
static Lock unitMapLock;
static Lock createOpenLock;
static UnitMap *unitMap{nullptr};
void FlushOutputOnCrash(const Terminator &terminator) {
if (!defaultOutput && !errorOutput) {
return;
}
IoErrorHandler handler{terminator};
handler.HasIoStat(); // prevent nested crash if flush has error
CriticalSection critical{unitMapLock};
if (defaultOutput) {
defaultOutput->FlushOutput(handler);
}
if (errorOutput) {
errorOutput->FlushOutput(handler);
}
}
ExternalFileUnit *ExternalFileUnit::LookUp(int unit) {
return GetUnitMap().LookUp(unit);
}
ExternalFileUnit *ExternalFileUnit::LookUpOrCreate(
int unit, const Terminator &terminator, bool &wasExtant) {
return GetUnitMap().LookUpOrCreate(unit, terminator, wasExtant);
}
ExternalFileUnit *ExternalFileUnit::LookUpOrCreateAnonymous(int unit,
Direction dir, Fortran::common::optional<bool> isUnformatted,
const Terminator &terminator) {
// Make sure that the returned anonymous unit has been opened
// not just created in the unitMap.
CriticalSection critical{createOpenLock};
bool exists{false};
ExternalFileUnit *result{
GetUnitMap().LookUpOrCreate(unit, terminator, exists)};
if (result && !exists) {
IoErrorHandler handler{terminator};
result->OpenAnonymousUnit(
dir == Direction::Input ? OpenStatus::Unknown : OpenStatus::Replace,
Action::ReadWrite, Position::Rewind, Convert::Unknown, handler);
result->isUnformatted = isUnformatted;
}
return result;
}
ExternalFileUnit *ExternalFileUnit::LookUp(
const char *path, std::size_t pathLen) {
return GetUnitMap().LookUp(path, pathLen);
}
ExternalFileUnit &ExternalFileUnit::CreateNew(
int unit, const Terminator &terminator) {
bool wasExtant{false};
ExternalFileUnit *result{
GetUnitMap().LookUpOrCreate(unit, terminator, wasExtant)};
RUNTIME_CHECK(terminator, result && !wasExtant);
return *result;
}
ExternalFileUnit *ExternalFileUnit::LookUpForClose(int unit) {
return GetUnitMap().LookUpForClose(unit);
}
ExternalFileUnit &ExternalFileUnit::NewUnit(
const Terminator &terminator, bool forChildIo) {
ExternalFileUnit &unit{GetUnitMap().NewUnit(terminator)};
unit.createdForInternalChildIo_ = forChildIo;
return unit;
}
bool ExternalFileUnit::OpenUnit(Fortran::common::optional<OpenStatus> status,
Fortran::common::optional<Action> action, Position position,
OwningPtr<char> &&newPath, std::size_t newPathLength, Convert convert,
IoErrorHandler &handler) {
if (convert == Convert::Unknown) {
convert = executionEnvironment.conversion;
}
swapEndianness_ = convert == Convert::Swap ||
(convert == Convert::LittleEndian && !isHostLittleEndian) ||
(convert == Convert::BigEndian && isHostLittleEndian);
bool impliedClose{false};
if (IsConnected()) {
bool isSamePath{newPath.get() && path() && pathLength() == newPathLength &&
std::memcmp(path(), newPath.get(), newPathLength) == 0};
if (status && *status != OpenStatus::Old && isSamePath) {
handler.SignalError("OPEN statement for connected unit may not have "
"explicit STATUS= other than 'OLD'");
return impliedClose;
}
if (!newPath.get() || isSamePath) {
// OPEN of existing unit, STATUS='OLD' or unspecified, not new FILE=
newPath.reset();
return impliedClose;
}
// Otherwise, OPEN on open unit with new FILE= implies CLOSE
DoImpliedEndfile(handler);
FlushOutput(handler);
TruncateFrame(0, handler);
Close(CloseStatus::Keep, handler);
impliedClose = true;
}
if (newPath.get() && newPathLength > 0) {
if (const auto *already{
GetUnitMap().LookUp(newPath.get(), newPathLength)}) {
handler.SignalError(IostatOpenAlreadyConnected,
"OPEN(UNIT=%d,FILE='%.*s'): file is already connected to unit %d",
unitNumber_, static_cast<int>(newPathLength), newPath.get(),
already->unitNumber_);
return impliedClose;
}
}
set_path(std::move(newPath), newPathLength);
Open(status.value_or(OpenStatus::Unknown), action, position, handler);
auto totalBytes{knownSize()};
if (access == Access::Direct) {
if (!openRecl) {
handler.SignalError(IostatOpenBadRecl,
"OPEN(UNIT=%d,ACCESS='DIRECT'): record length is not known",
unitNumber());
} else if (*openRecl <= 0) {
handler.SignalError(IostatOpenBadRecl,
"OPEN(UNIT=%d,ACCESS='DIRECT',RECL=%jd): record length is invalid",
unitNumber(), static_cast<std::intmax_t>(*openRecl));
} else if (totalBytes && (*totalBytes % *openRecl != 0)) {
handler.SignalError(IostatOpenBadRecl,
"OPEN(UNIT=%d,ACCESS='DIRECT',RECL=%jd): record length is not an "
"even divisor of the file size %jd",
unitNumber(), static_cast<std::intmax_t>(*openRecl),
static_cast<std::intmax_t>(*totalBytes));
}
recordLength = openRecl;
}
endfileRecordNumber.reset();
currentRecordNumber = 1;
if (totalBytes && access == Access::Direct && openRecl.value_or(0) > 0) {
endfileRecordNumber = 1 + (*totalBytes / *openRecl);
}
if (position == Position::Append) {
if (totalBytes) {
frameOffsetInFile_ = *totalBytes;
}
if (access != Access::Stream) {
if (!endfileRecordNumber) {
// Fake it so that we can backspace relative from the end
endfileRecordNumber = std::numeric_limits<std::int64_t>::max() - 2;
}
currentRecordNumber = *endfileRecordNumber;
}
}
return impliedClose;
}
void ExternalFileUnit::OpenAnonymousUnit(
Fortran::common::optional<OpenStatus> status,
Fortran::common::optional<Action> action, Position position,
Convert convert, IoErrorHandler &handler) {
// I/O to an unconnected unit reads/creates a local file, e.g. fort.7
std::size_t pathMaxLen{32};
auto path{SizedNew<char>{handler}(pathMaxLen)};
std::snprintf(path.get(), pathMaxLen, "fort.%d", unitNumber_);
OpenUnit(status, action, position, std::move(path), std::strlen(path.get()),
convert, handler);
}
void ExternalFileUnit::CloseUnit(CloseStatus status, IoErrorHandler &handler) {
DoImpliedEndfile(handler);
FlushOutput(handler);
Close(status, handler);
}
void ExternalFileUnit::DestroyClosed() {
GetUnitMap().DestroyClosed(*this); // destroys *this
}
Iostat ExternalFileUnit::SetDirection(Direction direction) {
if (direction == Direction::Input) {
if (mayRead()) {
direction_ = Direction::Input;
return IostatOk;
} else {
return IostatReadFromWriteOnly;
}
} else {
if (mayWrite()) {
direction_ = Direction::Output;
return IostatOk;
} else {
return IostatWriteToReadOnly;
}
}
}
UnitMap &ExternalFileUnit::CreateUnitMap() {
Terminator terminator{__FILE__, __LINE__};
IoErrorHandler handler{terminator};
UnitMap &newUnitMap{*New<UnitMap>{terminator}().release()};
bool wasExtant{false};
ExternalFileUnit &out{*newUnitMap.LookUpOrCreate(
FORTRAN_DEFAULT_OUTPUT_UNIT, terminator, wasExtant)};
RUNTIME_CHECK(terminator, !wasExtant);
out.Predefine(1);
handler.SignalError(out.SetDirection(Direction::Output));
out.isUnformatted = false;
defaultOutput = &out;
ExternalFileUnit &in{*newUnitMap.LookUpOrCreate(
FORTRAN_DEFAULT_INPUT_UNIT, terminator, wasExtant)};
RUNTIME_CHECK(terminator, !wasExtant);
in.Predefine(0);
handler.SignalError(in.SetDirection(Direction::Input));
in.isUnformatted = false;
defaultInput = &in;
ExternalFileUnit &error{
*newUnitMap.LookUpOrCreate(FORTRAN_ERROR_UNIT, terminator, wasExtant)};
RUNTIME_CHECK(terminator, !wasExtant);
error.Predefine(2);
handler.SignalError(error.SetDirection(Direction::Output));
error.isUnformatted = false;
errorOutput = &error;
return newUnitMap;
}
// A back-up atexit() handler for programs that don't terminate with a main
// program END or a STOP statement or other Fortran-initiated program shutdown,
// such as programs with a C main() that terminate normally. It flushes all
// external I/O units. It is registered once the first time that any external
// I/O is attempted.
static void CloseAllExternalUnits() {
IoErrorHandler handler{"Fortran program termination"};
ExternalFileUnit::CloseAll(handler);
}
UnitMap &ExternalFileUnit::GetUnitMap() {
if (unitMap) {
return *unitMap;
}
{
CriticalSection critical{unitMapLock};
if (unitMap) {
return *unitMap;
}
unitMap = &CreateUnitMap();
}
std::atexit(CloseAllExternalUnits);
return *unitMap;
}
void ExternalFileUnit::CloseAll(IoErrorHandler &handler) {
CriticalSection critical{unitMapLock};
if (unitMap) {
unitMap->CloseAll(handler);
FreeMemoryAndNullify(unitMap);
}
defaultOutput = nullptr;
defaultInput = nullptr;
errorOutput = nullptr;
}
void ExternalFileUnit::FlushAll(IoErrorHandler &handler) {
CriticalSection critical{unitMapLock};
if (unitMap) {
unitMap->FlushAll(handler);
}
}
int ExternalFileUnit::GetAsynchronousId(IoErrorHandler &handler) {
if (!mayAsynchronous()) {
handler.SignalError(IostatBadAsynchronous);
return -1;
} else {
for (int j{0}; 64 * j < maxAsyncIds; ++j) {
if (auto least{asyncIdAvailable_[j].LeastElement()}) {
asyncIdAvailable_[j].reset(*least);
return 64 * j + static_cast<int>(*least);
}
}
handler.SignalError(IostatTooManyAsyncOps);
return -1;
}
}
bool ExternalFileUnit::Wait(int id) {
if (static_cast<std::size_t>(id) >= maxAsyncIds ||
asyncIdAvailable_[id / 64].test(id % 64)) {
return false;
} else {
if (id == 0) { // means "all IDs"
for (int j{0}; 64 * j < maxAsyncIds; ++j) {
asyncIdAvailable_[j].set();
}
asyncIdAvailable_[0].reset(0);
} else {
asyncIdAvailable_[id / 64].set(id % 64);
}
return true;
}
}
} // namespace Fortran::runtime::io
#endif // !defined(RT_USE_PSEUDO_FILE_UNIT)