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clang-p2996/flang/runtime/unit.h
Peter Klausler ccc573c6d8 [flang][runtime] When OPEN implies CLOSE, disable later extant unit c… (#69390)
…hecks

An OPEN statement on an existing unit can imply a CLOSE of that unit;
for example, OPEN(5, FILE="mydata", FORM="formatted") should implicitly
close the standard input that had been preconnected to unit 5. When this
happens, later checks in OPEN statement completion that apply only to
existing units should be disabled.
2023-10-31 10:25:29 -07:00

214 lines
7.8 KiB
C++

//===-- runtime/unit.h ------------------------------------------*- 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
//
//===----------------------------------------------------------------------===//
// Fortran external I/O units
#ifndef FORTRAN_RUNTIME_IO_UNIT_H_
#define FORTRAN_RUNTIME_IO_UNIT_H_
#include "buffer.h"
#include "connection.h"
#include "environment.h"
#include "file.h"
#include "format.h"
#include "io-error.h"
#include "io-stmt.h"
#include "lock.h"
#include "terminator.h"
#include "flang/Common/constexpr-bitset.h"
#include "flang/Runtime/memory.h"
#include <cstdlib>
#include <cstring>
#include <optional>
#include <variant>
namespace Fortran::runtime::io {
class UnitMap;
class ChildIo;
class ExternalFileUnit : public ConnectionState,
public OpenFile,
public FileFrame<ExternalFileUnit> {
public:
explicit ExternalFileUnit(int unitNumber) : unitNumber_{unitNumber} {
isUTF8 = executionEnvironment.defaultUTF8;
asyncIdAvailable_.set();
asyncIdAvailable_.reset(0);
}
~ExternalFileUnit() {}
int unitNumber() const { return unitNumber_; }
bool swapEndianness() const { return swapEndianness_; }
bool createdForInternalChildIo() const { return createdForInternalChildIo_; }
static ExternalFileUnit *LookUp(int unit);
static ExternalFileUnit *LookUpOrCreate(
int unit, const Terminator &, bool &wasExtant);
static ExternalFileUnit *LookUpOrCreateAnonymous(int unit, Direction,
std::optional<bool> isUnformatted, const Terminator &);
static ExternalFileUnit *LookUp(const char *path, std::size_t pathLen);
static ExternalFileUnit &CreateNew(int unit, const Terminator &);
static ExternalFileUnit *LookUpForClose(int unit);
static ExternalFileUnit &NewUnit(const Terminator &, bool forChildIo);
static void CloseAll(IoErrorHandler &);
static void FlushAll(IoErrorHandler &);
// Returns true if an existing unit was closed
bool OpenUnit(std::optional<OpenStatus>, std::optional<Action>, Position,
OwningPtr<char> &&path, std::size_t pathLength, Convert,
IoErrorHandler &);
void OpenAnonymousUnit(std::optional<OpenStatus>, std::optional<Action>,
Position, Convert, IoErrorHandler &);
void CloseUnit(CloseStatus, IoErrorHandler &);
void DestroyClosed();
Iostat SetDirection(Direction);
template <typename A, typename... X>
IoStatementState &BeginIoStatement(const Terminator &terminator, X &&...xs) {
// Take lock_ and hold it until EndIoStatement().
#if USE_PTHREADS
if (!lock_.TakeIfNoDeadlock()) {
terminator.Crash("Recursive I/O attempted on unit %d", unitNumber_);
}
#else
lock_.Take();
#endif
A &state{u_.emplace<A>(std::forward<X>(xs)...)};
if constexpr (!std::is_same_v<A, OpenStatementState>) {
state.mutableModes() = ConnectionState::modes;
}
directAccessRecWasSet_ = false;
io_.emplace(state);
return *io_;
}
bool Emit(
const char *, std::size_t, std::size_t elementBytes, IoErrorHandler &);
bool Receive(char *, std::size_t, std::size_t elementBytes, IoErrorHandler &);
std::size_t GetNextInputBytes(const char *&, IoErrorHandler &);
bool BeginReadingRecord(IoErrorHandler &);
void FinishReadingRecord(IoErrorHandler &);
bool AdvanceRecord(IoErrorHandler &);
void BackspaceRecord(IoErrorHandler &);
void FlushOutput(IoErrorHandler &);
void FlushIfTerminal(IoErrorHandler &);
void Endfile(IoErrorHandler &);
void Rewind(IoErrorHandler &);
void EndIoStatement();
bool SetStreamPos(std::int64_t, IoErrorHandler &); // one-based, for POS=
bool SetDirectRec(std::int64_t, IoErrorHandler &); // one-based, for REC=
std::int64_t InquirePos() const {
// 12.6.2.11 defines POS=1 as the beginning of file
return frameOffsetInFile_ + recordOffsetInFrame_ + positionInRecord + 1;
}
ChildIo *GetChildIo() { return child_.get(); }
ChildIo &PushChildIo(IoStatementState &);
void PopChildIo(ChildIo &);
int GetAsynchronousId(IoErrorHandler &);
bool Wait(int);
private:
static UnitMap &CreateUnitMap();
static UnitMap &GetUnitMap();
const char *FrameNextInput(IoErrorHandler &, std::size_t);
void SetPosition(std::int64_t, IoErrorHandler &); // zero-based
void BeginSequentialVariableUnformattedInputRecord(IoErrorHandler &);
void BeginVariableFormattedInputRecord(IoErrorHandler &);
void BackspaceFixedRecord(IoErrorHandler &);
void BackspaceVariableUnformattedRecord(IoErrorHandler &);
void BackspaceVariableFormattedRecord(IoErrorHandler &);
bool SetVariableFormattedRecordLength();
void DoImpliedEndfile(IoErrorHandler &);
void DoEndfile(IoErrorHandler &);
void CommitWrites();
bool CheckDirectAccess(IoErrorHandler &);
void HitEndOnRead(IoErrorHandler &);
std::int32_t ReadHeaderOrFooter(std::int64_t frameOffset);
Lock lock_;
int unitNumber_{-1};
Direction direction_{Direction::Output};
bool impliedEndfile_{false}; // sequential/stream output has taken place
bool beganReadingRecord_{false};
bool directAccessRecWasSet_{false}; // REC= appeared
// Subtle: The beginning of the frame can't be allowed to advance
// during a single list-directed READ due to the possibility of a
// multi-record CHARACTER value with a "r*" repeat count. So we
// manage the frame and the current record therein separately.
std::int64_t frameOffsetInFile_{0};
std::size_t recordOffsetInFrame_{0}; // of currentRecordNumber
bool swapEndianness_{false};
bool createdForInternalChildIo_{false};
common::BitSet<64> asyncIdAvailable_;
// When a synchronous I/O statement is in progress on this unit, holds its
// state.
std::variant<std::monostate, OpenStatementState, CloseStatementState,
ExternalFormattedIoStatementState<Direction::Output>,
ExternalFormattedIoStatementState<Direction::Input>,
ExternalListIoStatementState<Direction::Output>,
ExternalListIoStatementState<Direction::Input>,
ExternalUnformattedIoStatementState<Direction::Output>,
ExternalUnformattedIoStatementState<Direction::Input>, InquireUnitState,
ExternalMiscIoStatementState, ErroneousIoStatementState>
u_;
// Points to the active alternative (if any) in u_ for use as a Cookie
std::optional<IoStatementState> io_;
// A stack of child I/O pseudo-units for defined I/O that have this
// unit number.
OwningPtr<ChildIo> child_;
};
// A pseudo-unit for child I/O statements in defined I/O subroutines;
// it forwards operations to the parent I/O statement, which might also
// be a child I/O statement.
class ChildIo {
public:
ChildIo(IoStatementState &parent, OwningPtr<ChildIo> &&previous)
: parent_{parent}, previous_{std::move(previous)} {}
IoStatementState &parent() const { return parent_; }
void EndIoStatement();
template <typename A, typename... X>
IoStatementState &BeginIoStatement(X &&...xs) {
A &state{u_.emplace<A>(std::forward<X>(xs)...)};
io_.emplace(state);
return *io_;
}
OwningPtr<ChildIo> AcquirePrevious() { return std::move(previous_); }
Iostat CheckFormattingAndDirection(bool unformatted, Direction);
private:
IoStatementState &parent_;
OwningPtr<ChildIo> previous_;
std::variant<std::monostate,
ChildFormattedIoStatementState<Direction::Output>,
ChildFormattedIoStatementState<Direction::Input>,
ChildListIoStatementState<Direction::Output>,
ChildListIoStatementState<Direction::Input>,
ChildUnformattedIoStatementState<Direction::Output>,
ChildUnformattedIoStatementState<Direction::Input>, InquireUnitState,
ErroneousIoStatementState, ExternalMiscIoStatementState>
u_;
std::optional<IoStatementState> io_;
};
} // namespace Fortran::runtime::io
#endif // FORTRAN_RUNTIME_IO_UNIT_H_