llvm-gcc-4.2/libstdc++-v3/docs/html/17_intro/C++STYLE - llvm-archive - Git at Google


 C++ Standard Library Style Guidelines  DRAFT 2001-01-15
 -------------------------------------

 This library is written to appropriate C++ coding standards.  As such,
 it is intended to precede the recommendations of the GNU Coding
 Standard, which can be referenced here:

 http://www.gnu.org/prep/standards_toc.html

 ChangeLog entries for member functions should use the
 classname::member function name syntax as follows:

 1999-04-15  Dennis Ritchie  <dr@att.com>

 	* src/basic_file.cc (__basic_file::open): Fix thinko in
 	_G_HAVE_IO_FILE_OPEN bits.

 Notable areas of divergence from what may be previous local practice
 (particularly for GNU C) include:

 01. Pointers and references
   char* p = "flop";
   char& c = *p;
      -NOT-
   char *p = "flop";  // wrong
   char &c = *p;      // wrong

     Reason: In C++, definitions are mixed with executable code.  Here,
 	    p is being initialized, not *p.  This is near-universal
             practice among C++ programmers; it is normal for C hackers
             to switch spontaneously as they gain experience.

 02. Operator names and parentheses
   operator==(type)
      -NOT-
   operator == (type)  // wrong

     Reason: The == is part of the function name.  Separating
             it makes the declaration look like an expression.

 03. Function names and parentheses
   void mangle()
      -NOT-
   void mangle ()  // wrong

      Reason: no space before parentheses (except after a control-flow
      keyword) is near-universal practice for C++.  It identifies the
      parentheses as the function-call operator or declarator, as
      opposed to an expression or other overloaded use of parentheses.

 04. Template function indentation
   template<typename T>
     void
     template_function(args)
     { }
       -NOT-
   template<class T>
   void template_function(args) {};

      Reason: In class definitions, without indentation whitespace is
              needed both above and below the declaration to distinguish
 	     it visually from other members.  (Also, re: "typename"
 	     rather than "class".)  T often could be int, which is
 	     not a class.  ("class", here, is an anachronism.)

 05. Template class indentation
   template<typename _CharT, typename _Traits>
     class basic_ios : public ios_base
     {
     public:
       // Types:
     };
   -NOT-
   template<class _CharT, class _Traits>
   class basic_ios : public ios_base
     {
     public:
       // Types:
     };
   -NOT-
   template<class _CharT, class _Traits>
     class basic_ios : public ios_base
   {
     public:
       // Types:
   };

 06. Enumerators
   enum
   {
     space = _ISspace,
     print = _ISprint,
     cntrl = _IScntrl
   };
   -NOT-
   enum { space = _ISspace, print = _ISprint, cntrl = _IScntrl };

 07. Member initialization lists
    All one line, separate from class name.

   gribble::gribble()
   : _M_private_data(0), _M_more_stuff(0), _M_helper(0);
   { }
   -NOT-
   gribble::gribble() : _M_private_data(0), _M_more_stuff(0), _M_helper(0);
   { }

 08. Try/Catch blocks
   try
     {
       //
     }
   catch (...)
     {
       //
     }
   -NOT-
   try {
     //
   } catch(...) {
     //
   }

 09. Member functions declarations and definitions
    Keywords such as extern, static, export, explicit, inline, etc
    go on the line above the function name. Thus

   virtual int
   foo()
   -NOT-
   virtual int foo()

 	Reason: GNU coding conventions dictate return types for functions
      	are on a separate line than the function name and parameter list
      	for definitions. For C++, where we have member functions that can
     	be either inline definitions or declarations, keeping to this
      	standard allows all member function names for a given class to be
 	aligned to the same margin, increasing readibility.


 10. Invocation of member functions with "this->"
    For non-uglified names, use this->name to call the function.

   this->sync()
   -NOT-
   sync()

 	Reason: Koenig lookup.

 11. Namespaces
   namespace std
   {
     blah blah blah;
   } // namespace std

   -NOT-

   namespace std {
     blah blah blah;
   } // namespace std

 12. Spacing under protected and private in class declarations:
    space above, none below
    ie

    public:
      int foo;

    -NOT-
    public:

      int foo;

 13. Spacing WRT return statements.
    no extra spacing before returns, no parenthesis
    ie

    }
    return __ret;

    -NOT-
    }

    return __ret;

    -NOT-

    }
    return (__ret);


 14. Location of global variables.
    All global variables of class type, whether in the "user visable"
    space (e.g., cin) or the implementation namespace, must be defined
    as a character array with the appropriate alignment and then later
    re-initialized to the correct value.

    This is due to startup issues on certain platforms, such as AIX.
    For more explanation and examples, see src/globals.cc.  All such
    variables should be contained in that file, for simplicity.

 15. Exception abstractions
     Use the exception abstractions found in functexcept.h, which allow
     C++ programmers to use this library with -fno-exceptions. (Even if
     that is rarely advisable, it's a necessary evil for backwards
     compatibility.)

 16. Exception error messages
     All start with the name of the function where the exception is
     thrown, and then (optional) descriptive text is added. Example:

     __throw_logic_error(__N("basic_string::_S_construct NULL not valid"));

     Reason: The verbose terminate handler prints out exception::what(),
     as well as the typeinfo for the thrown exception. As this is the
     default terminate handler, by putting location info into the
     exception string, a very useful error message is printed out for
     uncaught exceptions. So useful, in fact, that non-programmers can
     give useful error messages, and programmers can intelligently
     speculate what went wrong without even using a debugger.

 The library currently has a mixture of GNU-C and modern C++ coding
 styles.  The GNU C usages will be combed out gradually.

 Name patterns:

 For nonstandard names appearing in Standard headers, we are constrained
 to use names that begin with underscores.  This is called "uglification".
 The convention is:

   Local and argument names:  __[a-z].*

     Examples:  __count  __ix  __s1

   Type names and template formal-argument names: _[A-Z][^_].*

     Examples:  _Helper  _CharT  _N

   Member data and function names: _M_.*

     Examples:  _M_num_elements  _M_initialize ()

   Static data members, constants, and enumerations: _S_.*

     Examples: _S_max_elements  _S_default_value

 Don't use names in the same scope that differ only in the prefix,
 e.g. _S_top and _M_top.  See BADNAMES for a list of forbidden names.
 (The most tempting of these seem to be and "_T" and "__sz".)

 Names must never have "__" internally; it would confuse name
 unmanglers on some targets.  Also, never use "__[0-9]", same reason.

 --------------------------

 [BY EXAMPLE]

 #ifndef  _HEADER_
 #define  _HEADER_ 1

 namespace std
 {
   class gribble
   {
   public:
     // ctor, op=, dtor
     gribble() throw();

     gribble(const gribble&);

     explicit
     gribble(int __howmany);

     gribble&
     operator=(const gribble&);

     virtual
     ~gribble() throw ();

     // argument
     inline void
     public_member(const char* __arg) const;

     // in-class function definitions should be restricted to one-liners.
     int
     one_line() { return 0 }

     int
     two_lines(const char* arg)
     { return strchr(arg, 'a'); }

     inline int
     three_lines();  // inline, but defined below.

     // note indentation
     template<typename _Formal_argument>
       void
       public_template() const throw();

     template<typename _Iterator>
       void
       other_template();

   private:
     class _Helper;

     int _M_private_data;
     int _M_more_stuff;
     _Helper* _M_helper;
     int _M_private_function();

     enum _Enum
       {
 	_S_one,
 	_S_two
       };

     static void
     _S_initialize_library();
   };

 // More-or-less-standard language features described by lack, not presence:
 # ifndef _G_NO_LONGLONG
   extern long long _G_global_with_a_good_long_name;  // avoid globals!
 # endif

   // Avoid in-class inline definitions, define separately;
   // likewise for member class definitions:
   inline int
   gribble::public_member() const
   { int __local = 0; return __local; }

   class gribble::_Helper
   {
     int _M_stuff;

     friend class gribble;
   };
 }

 // Names beginning with "__": only for arguments and
 //   local variables; never use "__" in a type name, or
 //   within any name; never use "__[0-9]".

 #endif /* _HEADER_ */


 namespace std
 {
   template<typename T>  // notice: "typename", not "class", no space
     long_return_value_type<with_many, args>
     function_name(char* pointer,               // "char *pointer" is wrong.
 		  char* argument,
 		  const Reference& ref)
     {
       // int a_local;  /* wrong; see below. */
       if (test)
       {
 	  nested code
       }

       int a_local = 0;  // declare variable at first use.

       //  char a, b, *p;   /* wrong */
       char a = 'a';
       char b = a + 1;
       char* c = "abc";  // each variable goes on its own line, always.

       // except maybe here...
       for (unsigned i = 0, mask = 1; mask; ++i, mask <<= 1) {
 	  // ...
       }
     }

   gribble::gribble()
   : _M_private_data(0), _M_more_stuff(0), _M_helper(0);
   { }

   inline int
   gribble::three_lines()
   {
     // doesn't fit in one line.
   }
 } // namespace std

	C++ Standard Library Style Guidelines DRAFT 2001-01-15
	-------------------------------------

	This library is written to appropriate C++ coding standards. As such,
	it is intended to precede the recommendations of the GNU Coding
	Standard, which can be referenced here:

	http://www.gnu.org/prep/standards_toc.html

	ChangeLog entries for member functions should use the
	classname::member function name syntax as follows:

	1999-04-15 Dennis Ritchie <dr@att.com>

	* src/basic_file.cc (__basic_file::open): Fix thinko in
	_G_HAVE_IO_FILE_OPEN bits.

	Notable areas of divergence from what may be previous local practice
	(particularly for GNU C) include:

	01. Pointers and references
	char* p = "flop";
	char& c = *p;
	-NOT-
	char *p = "flop"; // wrong
	char &c = *p; // wrong

	Reason: In C++, definitions are mixed with executable code. Here,
	p is being initialized, not *p. This is near-universal
	practice among C++ programmers; it is normal for C hackers
	to switch spontaneously as they gain experience.

	02. Operator names and parentheses
	operator==(type)
	-NOT-
	operator == (type) // wrong

	Reason: The == is part of the function name. Separating
	it makes the declaration look like an expression.

	03. Function names and parentheses
	void mangle()
	-NOT-
	void mangle () // wrong

	Reason: no space before parentheses (except after a control-flow
	keyword) is near-universal practice for C++. It identifies the
	parentheses as the function-call operator or declarator, as
	opposed to an expression or other overloaded use of parentheses.

	04. Template function indentation
	template<typename T>
	void
	template_function(args)
	{ }
	-NOT-
	template<class T>
	void template_function(args) {};

	Reason: In class definitions, without indentation whitespace is
	needed both above and below the declaration to distinguish
	it visually from other members. (Also, re: "typename"
	rather than "class".) T often could be int, which is
	not a class. ("class", here, is an anachronism.)

	05. Template class indentation
	template<typename _CharT, typename _Traits>
	class basic_ios : public ios_base
	{
	public:
	// Types:
	};
	-NOT-
	template<class _CharT, class _Traits>
	class basic_ios : public ios_base
	{
	public:
	// Types:
	};
	-NOT-
	template<class _CharT, class _Traits>
	class basic_ios : public ios_base
	{
	public:
	// Types:
	};

	06. Enumerators
	enum
	{
	space = _ISspace,
	print = _ISprint,
	cntrl = _IScntrl
	};
	-NOT-
	enum { space = _ISspace, print = _ISprint, cntrl = _IScntrl };

	07. Member initialization lists
	All one line, separate from class name.

	gribble::gribble()
	: _M_private_data(0), _M_more_stuff(0), _M_helper(0);
	{ }
	-NOT-
	gribble::gribble() : _M_private_data(0), _M_more_stuff(0), _M_helper(0);
	{ }

	08. Try/Catch blocks
	try
	{
	//
	}
	catch (...)
	{
	//
	}
	-NOT-
	try {
	//
	} catch(...) {
	//
	}

	09. Member functions declarations and definitions
	Keywords such as extern, static, export, explicit, inline, etc
	go on the line above the function name. Thus

	virtual int
	foo()
	-NOT-
	virtual int foo()

	Reason: GNU coding conventions dictate return types for functions
	are on a separate line than the function name and parameter list
	for definitions. For C++, where we have member functions that can
	be either inline definitions or declarations, keeping to this
	standard allows all member function names for a given class to be
	aligned to the same margin, increasing readibility.


	10. Invocation of member functions with "this->"
	For non-uglified names, use this->name to call the function.

	this->sync()
	-NOT-
	sync()

	Reason: Koenig lookup.

	11. Namespaces
	namespace std
	{
	blah blah blah;
	} // namespace std

	-NOT-

	namespace std {
	blah blah blah;
	} // namespace std

	12. Spacing under protected and private in class declarations:
	space above, none below
	ie

	public:
	int foo;

	-NOT-
	public:

	int foo;

	13. Spacing WRT return statements.
	no extra spacing before returns, no parenthesis
	ie

	}
	return __ret;

	-NOT-
	}

	return __ret;

	-NOT-

	}
	return (__ret);


	14. Location of global variables.
	All global variables of class type, whether in the "user visable"
	space (e.g., cin) or the implementation namespace, must be defined
	as a character array with the appropriate alignment and then later
	re-initialized to the correct value.

	This is due to startup issues on certain platforms, such as AIX.
	For more explanation and examples, see src/globals.cc. All such
	variables should be contained in that file, for simplicity.

	15. Exception abstractions
	Use the exception abstractions found in functexcept.h, which allow
	C++ programmers to use this library with -fno-exceptions. (Even if
	that is rarely advisable, it's a necessary evil for backwards
	compatibility.)

	16. Exception error messages
	All start with the name of the function where the exception is
	thrown, and then (optional) descriptive text is added. Example:

	__throw_logic_error(__N("basic_string::_S_construct NULL not valid"));

	Reason: The verbose terminate handler prints out exception::what(),
	as well as the typeinfo for the thrown exception. As this is the
	default terminate handler, by putting location info into the
	exception string, a very useful error message is printed out for
	uncaught exceptions. So useful, in fact, that non-programmers can
	give useful error messages, and programmers can intelligently
	speculate what went wrong without even using a debugger.

	The library currently has a mixture of GNU-C and modern C++ coding
	styles. The GNU C usages will be combed out gradually.

	Name patterns:

	For nonstandard names appearing in Standard headers, we are constrained
	to use names that begin with underscores. This is called "uglification".
	The convention is:

	Local and argument names: __[a-z].*

	Examples: __count __ix __s1

	Type names and template formal-argument names: _[A-Z][^_].*

	Examples: _Helper _CharT _N

	Member data and function names: _M_.*

	Examples: _M_num_elements _M_initialize ()

	Static data members, constants, and enumerations: _S_.*

	Examples: _S_max_elements _S_default_value

	Don't use names in the same scope that differ only in the prefix,
	e.g. _S_top and _M_top. See BADNAMES for a list of forbidden names.
	(The most tempting of these seem to be and "_T" and "__sz".)

	Names must never have "__" internally; it would confuse name
	unmanglers on some targets. Also, never use "__[0-9]", same reason.

	--------------------------

	[BY EXAMPLE]

	#ifndef _HEADER_
	#define _HEADER_ 1

	namespace std
	{
	class gribble
	{
	public:
	// ctor, op=, dtor
	gribble() throw();

	gribble(const gribble&);

	explicit
	gribble(int __howmany);

	gribble&
	operator=(const gribble&);

	virtual
	~gribble() throw ();

	// argument
	inline void
	public_member(const char* __arg) const;

	// in-class function definitions should be restricted to one-liners.
	int
	one_line() { return 0 }

	int
	two_lines(const char* arg)
	{ return strchr(arg, 'a'); }

	inline int
	three_lines(); // inline, but defined below.

	// note indentation
	template<typename _Formal_argument>
	void
	public_template() const throw();

	template<typename _Iterator>
	void
	other_template();

	private:
	class _Helper;

	int _M_private_data;
	int _M_more_stuff;
	_Helper* _M_helper;
	int _M_private_function();

	enum _Enum
	{
	_S_one,
	_S_two
	};

	static void
	_S_initialize_library();
	};

	// More-or-less-standard language features described by lack, not presence:
	# ifndef _G_NO_LONGLONG
	extern long long _G_global_with_a_good_long_name; // avoid globals!
	# endif

	// Avoid in-class inline definitions, define separately;
	// likewise for member class definitions:
	inline int
	gribble::public_member() const
	{ int __local = 0; return __local; }

	class gribble::_Helper
	{
	int _M_stuff;

	friend class gribble;
	};
	}

	// Names beginning with "__": only for arguments and
	// local variables; never use "__" in a type name, or
	// within any name; never use "__[0-9]".

	#endif /* _HEADER_ */


	namespace std
	{
	template<typename T> // notice: "typename", not "class", no space
	long_return_value_type<with_many, args>
	function_name(char* pointer, // "char *pointer" is wrong.
	char* argument,
	const Reference& ref)
	{
	// int a_local; /* wrong; see below. */
	if (test)
	{
	nested code
	}

	int a_local = 0; // declare variable at first use.

	// char a, b, p; / wrong */
	char a = 'a';
	char b = a + 1;
	char* c = "abc"; // each variable goes on its own line, always.

	// except maybe here...
	for (unsigned i = 0, mask = 1; mask; ++i, mask <<= 1) {
	// ...
	}
	}

	gribble::gribble()
	: _M_private_data(0), _M_more_stuff(0), _M_helper(0);
	{ }

	inline int
	gribble::three_lines()
	{
	// doesn't fit in one line.
	}
	} // namespace std