runtime/format.h - llvm-project/flang - Git at Google

 //===-- runtime/format.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
 //
 //===----------------------------------------------------------------------===//

 // FORMAT string processing

 #ifndef FORTRAN_RUNTIME_FORMAT_H_
 #define FORTRAN_RUNTIME_FORMAT_H_

 #include "environment.h"
 #include "io-error.h"
 #include "flang/Common/Fortran.h"
 #include "flang/Decimal/decimal.h"
 #include <cinttypes>
 #include <optional>

 namespace Fortran::runtime::io {

 enum EditingFlags {
   blankZero = 1, // BLANK=ZERO or BZ edit
   decimalComma = 2, // DECIMAL=COMMA or DC edit
   signPlus = 4, // SIGN=PLUS or SP edit
 };

 struct MutableModes {
   std::uint8_t editingFlags{0}; // BN, DP, SS
   enum decimal::FortranRounding round{
       executionEnvironment
           .defaultOutputRoundingMode}; // RP/ROUND='PROCESSOR_DEFAULT'
   bool pad{true}; // PAD= mode on READ
   char delim{'\0'}; // DELIM=
   short scale{0}; // kP
 };

 // A single edit descriptor extracted from a FORMAT
 struct DataEdit {
   char descriptor; // capitalized: one of A, I, B, O, Z, F, E(N/S/X), D, G

   // Special internal data edit descriptors for list-directed I/O
   static constexpr char ListDirected{'g'}; // non-COMPLEX list-directed
   static constexpr char ListDirectedRealPart{'r'}; // emit "(r," or "(r;"
   static constexpr char ListDirectedImaginaryPart{'z'}; // emit "z)"
   static constexpr char ListDirectedNullValue{'n'}; // see 13.10.3.2
   constexpr bool IsListDirected() const {
     return descriptor == ListDirected || descriptor == ListDirectedRealPart ||
         descriptor == ListDirectedImaginaryPart;
   }

   char variation{'\0'}; // N, S, or X for EN, ES, EX
   std::optional<int> width; // the 'w' field; optional for A
   std::optional<int> digits; // the 'm' or 'd' field
   std::optional<int> expoDigits; // 'Ee' field
   MutableModes modes;
   int repeat{1};
 };

 // FormatControl<A> requires that A have these member functions;
 // these default implementations just crash if called.
 struct DefaultFormatControlCallbacks : public IoErrorHandler {
   using IoErrorHandler::IoErrorHandler;
   DataEdit GetNextDataEdit(int = 1);
   bool Emit(const char *, std::size_t, std::size_t elementBytes = 0);
   bool Emit(const char16_t *, std::size_t);
   bool Emit(const char32_t *, std::size_t);
   std::optional<char32_t> GetCurrentChar();
   bool AdvanceRecord(int = 1);
   void BackspaceRecord();
   void HandleAbsolutePosition(std::int64_t);
   void HandleRelativePosition(std::int64_t);
 };

 // Generates a sequence of DataEdits from a FORMAT statement or
 // default-CHARACTER string.  Driven by I/O item list processing.
 // Errors are fatal.  See clause 13.4 in Fortran 2018 for background.
 template <typename CONTEXT> class FormatControl {
 public:
   using Context = CONTEXT;
   using CharType = typename Context::CharType;

   FormatControl() {}
   FormatControl(const Terminator &, const CharType *format,
       std::size_t formatLength, int maxHeight = maxMaxHeight);

   // Determines the max parenthesis nesting level by scanning and validating
   // the FORMAT string.
   static int GetMaxParenthesisNesting(
       IoErrorHandler &, const CharType *format, std::size_t formatLength);

   // For attempting to allocate in a user-supplied stack area
   static std::size_t GetNeededSize(int maxHeight) {
     return sizeof(FormatControl) -
         sizeof(Iteration) * (maxMaxHeight - maxHeight);
   }

   // Extracts the next data edit descriptor, handling control edit descriptors
   // along the way.
   DataEdit GetNextDataEdit(Context &, int maxRepeat = 1);

   // Emit any remaining character literals after the last data item (on output)
   // and perform remaining record positioning actions.
   void Finish(Context &);

 private:
   static constexpr std::uint8_t maxMaxHeight{100};

   struct Iteration {
     static constexpr int unlimited{-1};
     int start{0}; // offset in format_ of '(' or a repeated edit descriptor
     int remaining{0}; // while >0, decrement and iterate
   };

   void SkipBlanks() {
     while (offset_ < formatLength_ && format_[offset_] == ' ') {
       ++offset_;
     }
   }
   CharType PeekNext() {
     SkipBlanks();
     return offset_ < formatLength_ ? format_[offset_] : '\0';
   }
   CharType GetNextChar(IoErrorHandler &handler) {
     SkipBlanks();
     if (offset_ >= formatLength_) {
       handler.SignalError(
           IostatErrorInFormat, "FORMAT missing at least one ')'");
       return '\n';
     }
     return format_[offset_++];
   }
   int GetIntField(IoErrorHandler &, CharType firstCh = '\0');

   // Advances through the FORMAT until the next data edit
   // descriptor has been found; handles control edit descriptors
   // along the way.  Returns the repeat count that appeared
   // before the descriptor (defaulting to 1) and leaves offset_
   // pointing to the data edit.
   int CueUpNextDataEdit(Context &, bool stop = false);

   static constexpr CharType Capitalize(CharType ch) {
     return ch >= 'a' && ch <= 'z' ? ch + 'A' - 'a' : ch;
   }

   // Data members are arranged and typed so as to reduce size.
   // This structure may be allocated in stack space loaned by the
   // user program for internal I/O.
   const std::uint8_t maxHeight_{maxMaxHeight};
   std::uint8_t height_{0};
   const CharType *format_{nullptr};
   int formatLength_{0};
   int offset_{0}; // next item is at format_[offset_]

   // must be last, may be incomplete
   Iteration stack_[maxMaxHeight];
 };
 } // namespace Fortran::runtime::io
 #endif // FORTRAN_RUNTIME_FORMAT_H_
	//===-- runtime/format.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
	//
	//===----------------------------------------------------------------------===//

	// FORMAT string processing

	#ifndef FORTRAN_RUNTIME_FORMAT_H_
	#define FORTRAN_RUNTIME_FORMAT_H_

	#include "environment.h"
	#include "io-error.h"
	#include "flang/Common/Fortran.h"
	#include "flang/Decimal/decimal.h"
	#include <cinttypes>
	#include <optional>

	namespace Fortran::runtime::io {

	enum EditingFlags {
	blankZero = 1, // BLANK=ZERO or BZ edit
	decimalComma = 2, // DECIMAL=COMMA or DC edit
	signPlus = 4, // SIGN=PLUS or SP edit
	};

	struct MutableModes {
	std::uint8_t editingFlags{0}; // BN, DP, SS
	enum decimal::FortranRounding round{
	executionEnvironment
	.defaultOutputRoundingMode}; // RP/ROUND='PROCESSOR_DEFAULT'
	bool pad{true}; // PAD= mode on READ
	char delim{'\0'}; // DELIM=
	short scale{0}; // kP
	};

	// A single edit descriptor extracted from a FORMAT
	struct DataEdit {
	char descriptor; // capitalized: one of A, I, B, O, Z, F, E(N/S/X), D, G

	// Special internal data edit descriptors for list-directed I/O
	static constexpr char ListDirected{'g'}; // non-COMPLEX list-directed
	static constexpr char ListDirectedRealPart{'r'}; // emit "(r," or "(r;"
	static constexpr char ListDirectedImaginaryPart{'z'}; // emit "z)"
	static constexpr char ListDirectedNullValue{'n'}; // see 13.10.3.2
	constexpr bool IsListDirected() const {
	return descriptor == ListDirected \|\| descriptor == ListDirectedRealPart \|\|
	descriptor == ListDirectedImaginaryPart;
	}

	char variation{'\0'}; // N, S, or X for EN, ES, EX
	std::optional<int> width; // the 'w' field; optional for A
	std::optional<int> digits; // the 'm' or 'd' field
	std::optional<int> expoDigits; // 'Ee' field
	MutableModes modes;
	int repeat{1};
	};

	// FormatControl<A> requires that A have these member functions;
	// these default implementations just crash if called.
	struct DefaultFormatControlCallbacks : public IoErrorHandler {
	using IoErrorHandler::IoErrorHandler;
	DataEdit GetNextDataEdit(int = 1);
	bool Emit(const char *, std::size_t, std::size_t elementBytes = 0);
	bool Emit(const char16_t *, std::size_t);
	bool Emit(const char32_t *, std::size_t);
	std::optional<char32_t> GetCurrentChar();
	bool AdvanceRecord(int = 1);
	void BackspaceRecord();
	void HandleAbsolutePosition(std::int64_t);
	void HandleRelativePosition(std::int64_t);
	};

	// Generates a sequence of DataEdits from a FORMAT statement or
	// default-CHARACTER string. Driven by I/O item list processing.
	// Errors are fatal. See clause 13.4 in Fortran 2018 for background.
	template <typename CONTEXT> class FormatControl {
	public:
	using Context = CONTEXT;
	using CharType = typename Context::CharType;

	FormatControl() {}
	FormatControl(const Terminator &, const CharType *format,
	std::size_t formatLength, int maxHeight = maxMaxHeight);

	// Determines the max parenthesis nesting level by scanning and validating
	// the FORMAT string.
	static int GetMaxParenthesisNesting(
	IoErrorHandler &, const CharType *format, std::size_t formatLength);

	// For attempting to allocate in a user-supplied stack area
	static std::size_t GetNeededSize(int maxHeight) {
	return sizeof(FormatControl) -
	sizeof(Iteration) * (maxMaxHeight - maxHeight);
	}

	// Extracts the next data edit descriptor, handling control edit descriptors
	// along the way.
	DataEdit GetNextDataEdit(Context &, int maxRepeat = 1);

	// Emit any remaining character literals after the last data item (on output)
	// and perform remaining record positioning actions.
	void Finish(Context &);

	private:
	static constexpr std::uint8_t maxMaxHeight{100};

	struct Iteration {
	static constexpr int unlimited{-1};
	int start{0}; // offset in format_ of '(' or a repeated edit descriptor
	int remaining{0}; // while >0, decrement and iterate
	};

	void SkipBlanks() {
	while (offset_ < formatLength_ && format_[offset_] == ' ') {
	++offset_;
	}
	}
	CharType PeekNext() {
	SkipBlanks();
	return offset_ < formatLength_ ? format_[offset_] : '\0';
	}
	CharType GetNextChar(IoErrorHandler &handler) {
	SkipBlanks();
	if (offset_ >= formatLength_) {
	handler.SignalError(
	IostatErrorInFormat, "FORMAT missing at least one ')'");
	return '\n';
	}
	return format_[offset_++];
	}
	int GetIntField(IoErrorHandler &, CharType firstCh = '\0');

	// Advances through the FORMAT until the next data edit
	// descriptor has been found; handles control edit descriptors
	// along the way. Returns the repeat count that appeared
	// before the descriptor (defaulting to 1) and leaves offset_
	// pointing to the data edit.
	int CueUpNextDataEdit(Context &, bool stop = false);

	static constexpr CharType Capitalize(CharType ch) {
	return ch >= 'a' && ch <= 'z' ? ch + 'A' - 'a' : ch;
	}

	// Data members are arranged and typed so as to reduce size.
	// This structure may be allocated in stack space loaned by the
	// user program for internal I/O.
	const std::uint8_t maxHeight_{maxMaxHeight};
	std::uint8_t height_{0};
	const CharType *format_{nullptr};
	int formatLength_{0};
	int offset_{0}; // next item is at format_[offset_]

	// must be last, may be incomplete
	Iteration stack_[maxMaxHeight];
	};
	} // namespace Fortran::runtime::io
	#endif // FORTRAN_RUNTIME_FORMAT_H_