llvm-project/flang/runtime/edit-output.h

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//===-- runtime/edit-output.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
//
//===----------------------------------------------------------------------===//
#ifndef FORTRAN_RUNTIME_EDIT_OUTPUT_H_
#define FORTRAN_RUNTIME_EDIT_OUTPUT_H_
// Output data editing templates implementing the FORMAT data editing
// descriptors E, EN, ES, EX, D, F, and G for REAL data (and COMPLEX
// components, I and G for INTEGER, and B/O/Z for both.
// See subclauses in 13.7.2.3 of Fortran 2018 for the
// detailed specifications of these descriptors.
// List-directed output (13.10.4) for numeric types is also done here.
// Drives the same fast binary-to-decimal formatting templates used
// in the f18 front-end.
#include "format.h"
#include "io-stmt.h"
#include "flang/Common/uint128.h"
#include "flang/Decimal/decimal.h"
namespace Fortran::runtime::io {
// I, B, O, Z, and G output editing for INTEGER.
// The DataEdit reference is const here (and elsewhere in this header) so that
// one edit descriptor with a repeat factor may safely serve to edit
// multiple elements of an array.
template <typename INT = std::int64_t, typename UINT = std::uint64_t>
bool EditIntegerOutput(IoStatementState &, const DataEdit &, INT);
// Encapsulates the state of a REAL output conversion.
class RealOutputEditingBase {
protected:
explicit RealOutputEditingBase(IoStatementState &io) : io_{io} {}
static bool IsDecimalNumber(const char *p) {
if (!p) {
return false;
}
if (*p == '-' || *p == '+') {
++p;
}
return *p >= '0' && *p <= '9';
}
const char *FormatExponent(int, const DataEdit &edit, int &length);
bool EmitPrefix(const DataEdit &, std::size_t length, std::size_t width);
bool EmitSuffix(const DataEdit &);
IoStatementState &io_;
int trailingBlanks_{0}; // created when Gw editing maps to Fw
char exponent_[16];
};
template <int binaryPrecision = 53>
class RealOutputEditing : public RealOutputEditingBase {
public:
template <typename A>
RealOutputEditing(IoStatementState &io, A x)
: RealOutputEditingBase{io}, x_{x} {}
bool Edit(const DataEdit &);
private:
using BinaryFloatingPoint =
decimal::BinaryFloatingPointNumber<binaryPrecision>;
// The DataEdit arguments here are const references or copies so that
// the original DataEdit can safely serve multiple array elements when
// it has a repeat count.
bool EditEorDOutput(const DataEdit &);
bool EditFOutput(const DataEdit &);
DataEdit EditForGOutput(DataEdit); // returns an E or F edit
bool EditEXOutput(const DataEdit &);
bool EditListDirectedOutput(const DataEdit &);
bool IsZero() const { return x_.IsZero(); }
decimal::ConversionToDecimalResult Convert(
int significantDigits, const DataEdit &, int flags = 0);
BinaryFloatingPoint x_;
char buffer_[BinaryFloatingPoint::maxDecimalConversionDigits +
EXTRA_DECIMAL_CONVERSION_SPACE];
};
bool ListDirectedLogicalOutput(
IoStatementState &, ListDirectedStatementState<Direction::Output> &, bool);
bool EditLogicalOutput(IoStatementState &, const DataEdit &, bool);
bool ListDirectedDefaultCharacterOutput(IoStatementState &,
ListDirectedStatementState<Direction::Output> &, const char *, std::size_t);
bool EditDefaultCharacterOutput(
IoStatementState &, const DataEdit &, const char *, std::size_t);
extern template bool EditIntegerOutput<std::int64_t, std::uint64_t>(
IoStatementState &, const DataEdit &, std::int64_t);
extern template bool EditIntegerOutput<common::uint128_t, common::uint128_t>(
IoStatementState &, const DataEdit &, common::uint128_t);
extern template class RealOutputEditing<8>;
extern template class RealOutputEditing<11>;
extern template class RealOutputEditing<24>;
extern template class RealOutputEditing<53>;
extern template class RealOutputEditing<64>;
extern template class RealOutputEditing<113>;
} // namespace Fortran::runtime::io
#endif // FORTRAN_RUNTIME_EDIT_OUTPUT_H_