llvm-project/flang/runtime/io-stmt.h

732 lines
27 KiB
C++

//===-- runtime/io-stmt.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
//
//===----------------------------------------------------------------------===//
// Representations of the state of an I/O statement in progress
#ifndef FORTRAN_RUNTIME_IO_STMT_H_
#define FORTRAN_RUNTIME_IO_STMT_H_
#include "connection.h"
#include "file.h"
#include "format.h"
#include "internal-unit.h"
#include "io-error.h"
#include "flang/Common/visit.h"
#include "flang/Runtime/descriptor.h"
#include "flang/Runtime/io-api.h"
#include <functional>
#include <type_traits>
#include <variant>
namespace Fortran::runtime::io {
class ExternalFileUnit;
class ChildIo;
class OpenStatementState;
class InquireUnitState;
class InquireNoUnitState;
class InquireUnconnectedFileState;
class InquireIOLengthState;
class ExternalMiscIoStatementState;
class CloseStatementState;
class NoopStatementState; // CLOSE or FLUSH on unknown unit
class ErroneousIoStatementState;
template <Direction, typename CHAR = char>
class InternalFormattedIoStatementState;
template <Direction, typename CHAR = char> class InternalListIoStatementState;
template <Direction, typename CHAR = char>
class ExternalFormattedIoStatementState;
template <Direction> class ExternalListIoStatementState;
template <Direction> class ExternalUnformattedIoStatementState;
template <Direction, typename CHAR = char> class ChildFormattedIoStatementState;
template <Direction> class ChildListIoStatementState;
template <Direction> class ChildUnformattedIoStatementState;
struct InputStatementState {};
struct OutputStatementState {};
template <Direction D>
using IoDirectionState = std::conditional_t<D == Direction::Input,
InputStatementState, OutputStatementState>;
// Common state for all kinds of formatted I/O
template <Direction D> class FormattedIoStatementState {};
template <> class FormattedIoStatementState<Direction::Input> {
public:
std::size_t GetEditDescriptorChars() const;
void GotChar(int);
private:
// Account of characters read for edit descriptors (i.e., formatted I/O
// with a FORMAT, not list-directed or NAMELIST), not including padding.
std::size_t chars_{0}; // for READ(SIZE=)
};
// The Cookie type in the I/O API is a pointer (for C) to this class.
class IoStatementState {
public:
template <typename A> explicit IoStatementState(A &x) : u_{x} {}
// These member functions each project themselves into the active alternative.
// They're used by per-data-item routines in the I/O API (e.g., OutputReal64)
// to interact with the state of the I/O statement in progress.
// This design avoids virtual member functions and function pointers,
// which may not have good support in some runtime environments.
// CompleteOperation() is the last opportunity to raise an I/O error.
// It is called by EndIoStatement(), but it can be invoked earlier to
// catch errors for (e.g.) GetIoMsg() and GetNewUnit(). If called
// more than once, it is a no-op.
void CompleteOperation();
// Completes an I/O statement and reclaims storage.
int EndIoStatement();
bool Emit(const char *, std::size_t, std::size_t elementBytes);
bool Emit(const char *, std::size_t);
bool Emit(const char16_t *, std::size_t chars);
bool Emit(const char32_t *, std::size_t chars);
template <typename CHAR> bool EmitEncoded(const CHAR *, std::size_t);
bool Receive(char *, std::size_t, std::size_t elementBytes = 0);
std::size_t GetNextInputBytes(const char *&);
bool AdvanceRecord(int = 1);
void BackspaceRecord();
void HandleRelativePosition(std::int64_t);
void HandleAbsolutePosition(std::int64_t); // for r* in list I/O
std::optional<DataEdit> GetNextDataEdit(int maxRepeat = 1);
ExternalFileUnit *GetExternalFileUnit() const; // null if internal unit
bool BeginReadingRecord();
void FinishReadingRecord();
bool Inquire(InquiryKeywordHash, char *, std::size_t);
bool Inquire(InquiryKeywordHash, bool &);
bool Inquire(InquiryKeywordHash, std::int64_t, bool &); // PENDING=
bool Inquire(InquiryKeywordHash, std::int64_t &);
void GotChar(signed int = 1); // for READ(SIZE=); can be <0
MutableModes &mutableModes();
ConnectionState &GetConnectionState();
IoErrorHandler &GetIoErrorHandler() const;
// N.B.: this also works with base classes
template <typename A> A *get_if() const {
return common::visit(
[](auto &x) -> A * {
if constexpr (std::is_convertible_v<decltype(x.get()), A &>) {
return &x.get();
}
return nullptr;
},
u_);
}
// Vacant after the end of the current record
std::optional<char32_t> GetCurrentChar(std::size_t &byteCount);
bool EmitRepeated(char, std::size_t);
bool EmitField(const char *, std::size_t length, std::size_t width);
// For fixed-width fields, initialize the number of remaining characters.
// Skip over leading blanks, then return the first non-blank character (if
// any).
std::optional<char32_t> PrepareInput(const DataEdit &edit,
std::optional<int> &remaining, bool skipSpaces = true) {
remaining.reset();
if (edit.descriptor == DataEdit::ListDirected) {
std::size_t byteCount{0};
GetNextNonBlank(byteCount);
} else {
if (edit.width.value_or(0) > 0) {
remaining = *edit.width;
}
if (skipSpaces) {
SkipSpaces(remaining);
}
}
return NextInField(remaining, edit);
}
std::optional<char32_t> SkipSpaces(std::optional<int> &remaining) {
while (!remaining || *remaining > 0) {
std::size_t byteCount{0};
if (auto ch{GetCurrentChar(byteCount)}) {
if (*ch != ' ' && *ch != '\t') {
return ch;
}
if (remaining) {
if (static_cast<std::size_t>(*remaining) < byteCount) {
break;
}
GotChar(byteCount);
*remaining -= byteCount;
}
HandleRelativePosition(byteCount);
} else {
break;
}
}
return std::nullopt;
}
// Acquires the next input character, respecting any applicable field width
// or separator character.
std::optional<char32_t> NextInField(
std::optional<int> &remaining, const DataEdit &);
// Detect and signal any end-of-record condition after input.
// Returns true if at EOR and remaining input should be padded with blanks.
bool CheckForEndOfRecord();
// Skips spaces, advances records, and ignores NAMELIST comments
std::optional<char32_t> GetNextNonBlank(std::size_t &byteCount) {
auto ch{GetCurrentChar(byteCount)};
bool inNamelist{mutableModes().inNamelist};
while (!ch || *ch == ' ' || *ch == '\t' || (inNamelist && *ch == '!')) {
if (ch && (*ch == ' ' || *ch == '\t')) {
HandleRelativePosition(byteCount);
} else if (!AdvanceRecord()) {
return std::nullopt;
}
ch = GetCurrentChar(byteCount);
}
return ch;
}
template <Direction D> void CheckFormattedStmtType(const char *name) {
if (!get_if<FormattedIoStatementState<D>>()) {
GetIoErrorHandler().Crash(
"%s called for I/O statement that is not formatted %s", name,
D == Direction::Output ? "output" : "input");
}
}
private:
std::variant<std::reference_wrapper<OpenStatementState>,
std::reference_wrapper<CloseStatementState>,
std::reference_wrapper<NoopStatementState>,
std::reference_wrapper<
InternalFormattedIoStatementState<Direction::Output>>,
std::reference_wrapper<
InternalFormattedIoStatementState<Direction::Input>>,
std::reference_wrapper<InternalListIoStatementState<Direction::Output>>,
std::reference_wrapper<InternalListIoStatementState<Direction::Input>>,
std::reference_wrapper<
ExternalFormattedIoStatementState<Direction::Output>>,
std::reference_wrapper<
ExternalFormattedIoStatementState<Direction::Input>>,
std::reference_wrapper<ExternalListIoStatementState<Direction::Output>>,
std::reference_wrapper<ExternalListIoStatementState<Direction::Input>>,
std::reference_wrapper<
ExternalUnformattedIoStatementState<Direction::Output>>,
std::reference_wrapper<
ExternalUnformattedIoStatementState<Direction::Input>>,
std::reference_wrapper<ChildFormattedIoStatementState<Direction::Output>>,
std::reference_wrapper<ChildFormattedIoStatementState<Direction::Input>>,
std::reference_wrapper<ChildListIoStatementState<Direction::Output>>,
std::reference_wrapper<ChildListIoStatementState<Direction::Input>>,
std::reference_wrapper<
ChildUnformattedIoStatementState<Direction::Output>>,
std::reference_wrapper<
ChildUnformattedIoStatementState<Direction::Input>>,
std::reference_wrapper<InquireUnitState>,
std::reference_wrapper<InquireNoUnitState>,
std::reference_wrapper<InquireUnconnectedFileState>,
std::reference_wrapper<InquireIOLengthState>,
std::reference_wrapper<ExternalMiscIoStatementState>,
std::reference_wrapper<ErroneousIoStatementState>>
u_;
};
// Base class for all per-I/O statement state classes.
class IoStatementBase : public IoErrorHandler {
public:
using IoErrorHandler::IoErrorHandler;
bool completedOperation() const { return completedOperation_; }
void CompleteOperation() { completedOperation_ = true; }
int EndIoStatement() { return GetIoStat(); }
// These are default no-op backstops that can be overridden by descendants.
bool Emit(const char *, std::size_t, std::size_t elementBytes);
bool Emit(const char *, std::size_t);
bool Emit(const char16_t *, std::size_t chars);
bool Emit(const char32_t *, std::size_t chars);
bool Receive(char *, std::size_t, std::size_t elementBytes = 0);
std::size_t GetNextInputBytes(const char *&);
bool AdvanceRecord(int);
void BackspaceRecord();
void HandleRelativePosition(std::int64_t);
void HandleAbsolutePosition(std::int64_t);
std::optional<DataEdit> GetNextDataEdit(
IoStatementState &, int maxRepeat = 1);
ExternalFileUnit *GetExternalFileUnit() const;
bool BeginReadingRecord();
void FinishReadingRecord();
bool Inquire(InquiryKeywordHash, char *, std::size_t);
bool Inquire(InquiryKeywordHash, bool &);
bool Inquire(InquiryKeywordHash, std::int64_t, bool &);
bool Inquire(InquiryKeywordHash, std::int64_t &);
void BadInquiryKeywordHashCrash(InquiryKeywordHash);
protected:
bool completedOperation_{false};
};
// Common state for list-directed & NAMELIST I/O, both internal & external
template <Direction> class ListDirectedStatementState;
template <>
class ListDirectedStatementState<Direction::Output>
: public FormattedIoStatementState<Direction::Output> {
public:
bool EmitLeadingSpaceOrAdvance(
IoStatementState &, std::size_t = 1, bool isCharacter = false);
std::optional<DataEdit> GetNextDataEdit(
IoStatementState &, int maxRepeat = 1);
bool lastWasUndelimitedCharacter() const {
return lastWasUndelimitedCharacter_;
}
void set_lastWasUndelimitedCharacter(bool yes = true) {
lastWasUndelimitedCharacter_ = yes;
}
private:
bool lastWasUndelimitedCharacter_{false};
};
template <>
class ListDirectedStatementState<Direction::Input>
: public FormattedIoStatementState<Direction::Input> {
public:
// Skips value separators, handles repetition and null values.
// Vacant when '/' appears; present with descriptor == ListDirectedNullValue
// when a null value appears.
std::optional<DataEdit> GetNextDataEdit(
IoStatementState &, int maxRepeat = 1);
// Each NAMELIST input item is treated like a distinct list-directed
// input statement. This member function resets some state so that
// repetition and null values work correctly for each successive
// NAMELIST input item.
void ResetForNextNamelistItem() {
remaining_ = 0;
eatComma_ = false;
realPart_ = imaginaryPart_ = false;
}
private:
int remaining_{0}; // for "r*" repetition
std::optional<SavedPosition> repeatPosition_;
bool eatComma_{false}; // consume comma after previously read item
bool hitSlash_{false}; // once '/' is seen, nullify further items
bool realPart_{false};
bool imaginaryPart_{false};
};
template <Direction DIR, typename CHAR = char>
class InternalIoStatementState : public IoStatementBase,
public IoDirectionState<DIR> {
public:
using CharType = CHAR;
using Buffer =
std::conditional_t<DIR == Direction::Input, const CharType *, CharType *>;
InternalIoStatementState(Buffer, std::size_t,
const char *sourceFile = nullptr, int sourceLine = 0);
InternalIoStatementState(
const Descriptor &, const char *sourceFile = nullptr, int sourceLine = 0);
int EndIoStatement();
using IoStatementBase::Emit;
bool Emit(
const CharType *data, std::size_t chars /* not necessarily bytes */);
std::size_t GetNextInputBytes(const char *&);
bool AdvanceRecord(int = 1);
void BackspaceRecord();
ConnectionState &GetConnectionState() { return unit_; }
MutableModes &mutableModes() { return unit_.modes; }
void HandleRelativePosition(std::int64_t);
void HandleAbsolutePosition(std::int64_t);
protected:
bool free_{true};
InternalDescriptorUnit<DIR> unit_;
};
template <Direction DIR, typename CHAR>
class InternalFormattedIoStatementState
: public InternalIoStatementState<DIR, CHAR>,
public FormattedIoStatementState<DIR> {
public:
using CharType = CHAR;
using typename InternalIoStatementState<DIR, CharType>::Buffer;
InternalFormattedIoStatementState(Buffer internal, std::size_t internalLength,
const CharType *format, std::size_t formatLength,
const char *sourceFile = nullptr, int sourceLine = 0);
InternalFormattedIoStatementState(const Descriptor &, const CharType *format,
std::size_t formatLength, const char *sourceFile = nullptr,
int sourceLine = 0);
IoStatementState &ioStatementState() { return ioStatementState_; }
void CompleteOperation();
int EndIoStatement();
std::optional<DataEdit> GetNextDataEdit(
IoStatementState &, int maxRepeat = 1) {
return format_.GetNextDataEdit(*this, maxRepeat);
}
private:
IoStatementState ioStatementState_; // points to *this
using InternalIoStatementState<DIR, CharType>::unit_;
// format_ *must* be last; it may be partial someday
FormatControl<InternalFormattedIoStatementState> format_;
};
template <Direction DIR, typename CHAR>
class InternalListIoStatementState : public InternalIoStatementState<DIR, CHAR>,
public ListDirectedStatementState<DIR> {
public:
using CharType = CHAR;
using typename InternalIoStatementState<DIR, CharType>::Buffer;
InternalListIoStatementState(Buffer internal, std::size_t internalLength,
const char *sourceFile = nullptr, int sourceLine = 0);
InternalListIoStatementState(
const Descriptor &, const char *sourceFile = nullptr, int sourceLine = 0);
IoStatementState &ioStatementState() { return ioStatementState_; }
using ListDirectedStatementState<DIR>::GetNextDataEdit;
private:
IoStatementState ioStatementState_; // points to *this
using InternalIoStatementState<DIR, CharType>::unit_;
};
class ExternalIoStatementBase : public IoStatementBase {
public:
ExternalIoStatementBase(
ExternalFileUnit &, const char *sourceFile = nullptr, int sourceLine = 0);
ExternalFileUnit &unit() { return unit_; }
MutableModes &mutableModes();
ConnectionState &GetConnectionState();
int EndIoStatement();
ExternalFileUnit *GetExternalFileUnit() const { return &unit_; }
private:
ExternalFileUnit &unit_;
};
template <Direction DIR>
class ExternalIoStatementState : public ExternalIoStatementBase,
public IoDirectionState<DIR> {
public:
ExternalIoStatementState(
ExternalFileUnit &, const char *sourceFile = nullptr, int sourceLine = 0);
MutableModes &mutableModes() { return mutableModes_; }
void CompleteOperation();
int EndIoStatement();
bool Emit(const char *, std::size_t, std::size_t elementBytes);
bool Emit(const char *, std::size_t);
bool Emit(const char16_t *, std::size_t chars /* not bytes */);
bool Emit(const char32_t *, std::size_t chars /* not bytes */);
std::size_t GetNextInputBytes(const char *&);
bool AdvanceRecord(int = 1);
void BackspaceRecord();
void HandleRelativePosition(std::int64_t);
void HandleAbsolutePosition(std::int64_t);
bool BeginReadingRecord();
void FinishReadingRecord();
private:
// These are forked from ConnectionState's modes at the beginning
// of each formatted I/O statement so they may be overridden by control
// edit descriptors during the statement.
MutableModes mutableModes_;
};
template <Direction DIR, typename CHAR>
class ExternalFormattedIoStatementState
: public ExternalIoStatementState<DIR>,
public FormattedIoStatementState<DIR> {
public:
using CharType = CHAR;
ExternalFormattedIoStatementState(ExternalFileUnit &, const CharType *format,
std::size_t formatLength, const char *sourceFile = nullptr,
int sourceLine = 0);
void CompleteOperation();
int EndIoStatement();
std::optional<DataEdit> GetNextDataEdit(
IoStatementState &, int maxRepeat = 1) {
return format_.GetNextDataEdit(*this, maxRepeat);
}
private:
FormatControl<ExternalFormattedIoStatementState> format_;
};
template <Direction DIR>
class ExternalListIoStatementState : public ExternalIoStatementState<DIR>,
public ListDirectedStatementState<DIR> {
public:
using ExternalIoStatementState<DIR>::ExternalIoStatementState;
using ListDirectedStatementState<DIR>::GetNextDataEdit;
};
template <Direction DIR>
class ExternalUnformattedIoStatementState
: public ExternalIoStatementState<DIR> {
public:
using ExternalIoStatementState<DIR>::ExternalIoStatementState;
bool Receive(char *, std::size_t, std::size_t elementBytes = 0);
};
template <Direction DIR>
class ChildIoStatementState : public IoStatementBase,
public IoDirectionState<DIR> {
public:
ChildIoStatementState(
ChildIo &, const char *sourceFile = nullptr, int sourceLine = 0);
ChildIo &child() { return child_; }
MutableModes &mutableModes();
ConnectionState &GetConnectionState();
ExternalFileUnit *GetExternalFileUnit() const;
void CompleteOperation();
int EndIoStatement();
bool Emit(const char *, std::size_t, std::size_t elementBytes);
bool Emit(const char *, std::size_t);
bool Emit(const char16_t *, std::size_t chars /* not bytes */);
bool Emit(const char32_t *, std::size_t chars /* not bytes */);
std::size_t GetNextInputBytes(const char *&);
void HandleRelativePosition(std::int64_t);
void HandleAbsolutePosition(std::int64_t);
private:
ChildIo &child_;
};
template <Direction DIR, typename CHAR>
class ChildFormattedIoStatementState : public ChildIoStatementState<DIR>,
public FormattedIoStatementState<DIR> {
public:
using CharType = CHAR;
ChildFormattedIoStatementState(ChildIo &, const CharType *format,
std::size_t formatLength, const char *sourceFile = nullptr,
int sourceLine = 0);
MutableModes &mutableModes() { return mutableModes_; }
void CompleteOperation();
int EndIoStatement();
bool AdvanceRecord(int = 1);
std::optional<DataEdit> GetNextDataEdit(
IoStatementState &, int maxRepeat = 1) {
return format_.GetNextDataEdit(*this, maxRepeat);
}
private:
MutableModes mutableModes_;
FormatControl<ChildFormattedIoStatementState> format_;
};
template <Direction DIR>
class ChildListIoStatementState : public ChildIoStatementState<DIR>,
public ListDirectedStatementState<DIR> {
public:
using ChildIoStatementState<DIR>::ChildIoStatementState;
using ListDirectedStatementState<DIR>::GetNextDataEdit;
};
template <Direction DIR>
class ChildUnformattedIoStatementState : public ChildIoStatementState<DIR> {
public:
using ChildIoStatementState<DIR>::ChildIoStatementState;
bool Receive(char *, std::size_t, std::size_t elementBytes = 0);
};
// OPEN
class OpenStatementState : public ExternalIoStatementBase {
public:
OpenStatementState(ExternalFileUnit &unit, bool wasExtant,
const char *sourceFile = nullptr, int sourceLine = 0)
: ExternalIoStatementBase{unit, sourceFile, sourceLine}, wasExtant_{
wasExtant} {}
bool wasExtant() const { return wasExtant_; }
void set_status(OpenStatus status) { status_ = status; } // STATUS=
void set_path(const char *, std::size_t); // FILE=
void set_position(Position position) { position_ = position; } // POSITION=
void set_action(Action action) { action_ = action; } // ACTION=
void set_convert(Convert convert) { convert_ = convert; } // CONVERT=
void set_access(Access access) { access_ = access; } // ACCESS=
void set_isUnformatted(bool yes = true) { isUnformatted_ = yes; } // FORM=
void CompleteOperation();
int EndIoStatement();
private:
bool wasExtant_;
std::optional<OpenStatus> status_;
std::optional<Position> position_;
std::optional<Action> action_;
Convert convert_{Convert::Native};
OwningPtr<char> path_;
std::size_t pathLength_;
std::optional<bool> isUnformatted_;
std::optional<Access> access_;
};
class CloseStatementState : public ExternalIoStatementBase {
public:
CloseStatementState(ExternalFileUnit &unit, const char *sourceFile = nullptr,
int sourceLine = 0)
: ExternalIoStatementBase{unit, sourceFile, sourceLine} {}
void set_status(CloseStatus status) { status_ = status; }
int EndIoStatement();
private:
CloseStatus status_{CloseStatus::Keep};
};
// For CLOSE(bad unit) and INQUIRE(unconnected unit)
class NoUnitIoStatementState : public IoStatementBase {
public:
IoStatementState &ioStatementState() { return ioStatementState_; }
MutableModes &mutableModes() { return connection_.modes; }
ConnectionState &GetConnectionState() { return connection_; }
void CompleteOperation();
int EndIoStatement();
protected:
template <typename A>
NoUnitIoStatementState(const char *sourceFile, int sourceLine, A &stmt)
: IoStatementBase{sourceFile, sourceLine}, ioStatementState_{stmt} {}
private:
IoStatementState ioStatementState_; // points to *this
ConnectionState connection_;
};
class NoopStatementState : public NoUnitIoStatementState {
public:
NoopStatementState(const char *sourceFile, int sourceLine)
: NoUnitIoStatementState{sourceFile, sourceLine, *this} {}
void set_status(CloseStatus) {} // discards
};
extern template class InternalIoStatementState<Direction::Output>;
extern template class InternalIoStatementState<Direction::Input>;
extern template class InternalFormattedIoStatementState<Direction::Output>;
extern template class InternalFormattedIoStatementState<Direction::Input>;
extern template class InternalListIoStatementState<Direction::Output>;
extern template class InternalListIoStatementState<Direction::Input>;
extern template class ExternalIoStatementState<Direction::Output>;
extern template class ExternalIoStatementState<Direction::Input>;
extern template class ExternalFormattedIoStatementState<Direction::Output>;
extern template class ExternalFormattedIoStatementState<Direction::Input>;
extern template class ExternalListIoStatementState<Direction::Output>;
extern template class ExternalListIoStatementState<Direction::Input>;
extern template class ExternalUnformattedIoStatementState<Direction::Output>;
extern template class ExternalUnformattedIoStatementState<Direction::Input>;
extern template class ChildIoStatementState<Direction::Output>;
extern template class ChildIoStatementState<Direction::Input>;
extern template class ChildFormattedIoStatementState<Direction::Output>;
extern template class ChildFormattedIoStatementState<Direction::Input>;
extern template class ChildListIoStatementState<Direction::Output>;
extern template class ChildListIoStatementState<Direction::Input>;
extern template class ChildUnformattedIoStatementState<Direction::Output>;
extern template class ChildUnformattedIoStatementState<Direction::Input>;
extern template class FormatControl<
InternalFormattedIoStatementState<Direction::Output>>;
extern template class FormatControl<
InternalFormattedIoStatementState<Direction::Input>>;
extern template class FormatControl<
ExternalFormattedIoStatementState<Direction::Output>>;
extern template class FormatControl<
ExternalFormattedIoStatementState<Direction::Input>>;
extern template class FormatControl<
ChildFormattedIoStatementState<Direction::Output>>;
extern template class FormatControl<
ChildFormattedIoStatementState<Direction::Input>>;
class InquireUnitState : public ExternalIoStatementBase {
public:
InquireUnitState(ExternalFileUnit &unit, const char *sourceFile = nullptr,
int sourceLine = 0);
bool Inquire(InquiryKeywordHash, char *, std::size_t);
bool Inquire(InquiryKeywordHash, bool &);
bool Inquire(InquiryKeywordHash, std::int64_t, bool &);
bool Inquire(InquiryKeywordHash, std::int64_t &);
};
class InquireNoUnitState : public NoUnitIoStatementState {
public:
InquireNoUnitState(const char *sourceFile = nullptr, int sourceLine = 0);
bool Inquire(InquiryKeywordHash, char *, std::size_t);
bool Inquire(InquiryKeywordHash, bool &);
bool Inquire(InquiryKeywordHash, std::int64_t, bool &);
bool Inquire(InquiryKeywordHash, std::int64_t &);
};
class InquireUnconnectedFileState : public NoUnitIoStatementState {
public:
InquireUnconnectedFileState(OwningPtr<char> &&path,
const char *sourceFile = nullptr, int sourceLine = 0);
bool Inquire(InquiryKeywordHash, char *, std::size_t);
bool Inquire(InquiryKeywordHash, bool &);
bool Inquire(InquiryKeywordHash, std::int64_t, bool &);
bool Inquire(InquiryKeywordHash, std::int64_t &);
private:
OwningPtr<char> path_; // trimmed and NUL terminated
};
class InquireIOLengthState : public NoUnitIoStatementState,
public OutputStatementState {
public:
InquireIOLengthState(const char *sourceFile = nullptr, int sourceLine = 0);
std::size_t bytes() const { return bytes_; }
bool Emit(const char *, std::size_t, std::size_t elementBytes);
bool Emit(const char *, std::size_t);
bool Emit(const char16_t *, std::size_t chars);
bool Emit(const char32_t *, std::size_t chars);
private:
std::size_t bytes_{0};
};
class ExternalMiscIoStatementState : public ExternalIoStatementBase {
public:
enum Which { Flush, Backspace, Endfile, Rewind };
ExternalMiscIoStatementState(ExternalFileUnit &unit, Which which,
const char *sourceFile = nullptr, int sourceLine = 0)
: ExternalIoStatementBase{unit, sourceFile, sourceLine}, which_{which} {}
void CompleteOperation();
int EndIoStatement();
private:
Which which_;
};
class ErroneousIoStatementState : public IoStatementBase {
public:
explicit ErroneousIoStatementState(
Iostat iostat, const char *sourceFile = nullptr, int sourceLine = 0)
: IoStatementBase{sourceFile, sourceLine} {
SetPendingError(iostat);
}
int EndIoStatement();
ConnectionState &GetConnectionState() { return connection_; }
MutableModes &mutableModes() { return connection_.modes; }
private:
ConnectionState connection_;
};
extern template bool IoStatementState::EmitEncoded<char>(
const char *, std::size_t);
extern template bool IoStatementState::EmitEncoded<char16_t>(
const char16_t *, std::size_t);
extern template bool IoStatementState::EmitEncoded<char32_t>(
const char32_t *, std::size_t);
} // namespace Fortran::runtime::io
#endif // FORTRAN_RUNTIME_IO_STMT_H_