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kdemacros.h.cmake
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kdemacros.h.cmake
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/* This file is part of the KDE libraries
Copyright (c) 2002-2003 KDE Team
This library is free software; you can redistribute it and/or
modify it under the terms of the GNU Library General Public
License as published by the Free Software Foundation; either
version 2 of the License, or (at your option) any later version.
This library is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
Library General Public License for more details.
You should have received a copy of the GNU Library General Public License
along with this library; see the file COPYING.LIB. If not, write to
the Free Software Foundation, Inc., 51 Franklin Street, Fifth Floor,
Boston, MA 02110-1301, USA.
*/
/**
* @file kdemacros.h
*
* This header defines several compiler-independent macros which are used
* throughout KDE. Most of these macros make use of GCC extensions; on other
* compilers, they don't have any effect.
*/
#ifndef _KDE_MACROS_H_
#define _KDE_MACROS_H_
#cmakedefine __KDE_HAVE_GCC_VISIBILITY
/**
* @def KDE_NO_EXPORT
* @ingroup KDEMacros
*
* The KDE_NO_EXPORT macro marks the symbol of the given variable
* to be hidden. A hidden symbol is stripped during the linking step,
* so it can't be used from outside the resulting library, which is similar
* to static. However, static limits the visibility to the current
* compilation unit. Hidden symbols can still be used in multiple compilation
* units.
*
* \code
* int KDE_NO_EXPORT foo;
* int KDE_EXPORT bar;
* \endcode
*
* @sa KDE_EXPORT
*/
/**
* @def KDE_EXPORT
* @ingroup KDEMacros
*
* The KDE_EXPORT macro marks the symbol of the given variable
* to be visible, so it can be used from outside the resulting library.
*
* \code
* int KDE_NO_EXPORT foo;
* int KDE_EXPORT bar;
* \endcode
*
* @sa KDE_NO_EXPORT
*/
/**
* @def KDE_IMPORT
* @ingroup KDEMacros
*/
#ifdef __KDE_HAVE_GCC_VISIBILITY
#define KDE_NO_EXPORT __attribute__ ((visibility("hidden")))
#define KDE_EXPORT __attribute__ ((visibility("default")))
#define KDE_IMPORT __attribute__ ((visibility("default")))
#elif defined(_WIN32) || defined(_WIN64)
#define KDE_NO_EXPORT
#define KDE_EXPORT __declspec(dllexport)
#define KDE_IMPORT __declspec(dllimport)
#else
#define KDE_NO_EXPORT
#define KDE_EXPORT
#define KDE_IMPORT
#endif
/**
* @def KDE_PACKED
* @ingroup KDEMacros
*
* The KDE_PACKED macro can be used to hint the compiler that a particular
* structure or class should not contain unnecessary paddings.
*/
#ifdef __GNUC__
#define KDE_PACKED __attribute__((__packed__))
#else
#define KDE_PACKED
#endif
/**
* @def KDE_DEPRECATED
* @ingroup KDEMacros
*
* The KDE_DEPRECATED macro can be used to trigger compile-time warnings
* with newer compilers when deprecated functions are used.
*
* For non-inline functions, the macro gets inserted at front of the
* function declaration, right before the return type:
*
* \code
* KDE_DEPRECATED void deprecatedFunctionA();
* KDE_DEPRECATED int deprecatedFunctionB() const;
* \endcode
*
* For functions which are implemented inline,
* the KDE_DEPRECATED macro is inserted at the front, right before the return
* type, but after "static", "inline" or "virtual":
*
* \code
* KDE_DEPRECATED void deprecatedInlineFunctionA() { .. }
* virtual KDE_DEPRECATED int deprecatedInlineFunctionB() { .. }
* static KDE_DEPRECATED bool deprecatedInlineFunctionC() { .. }
* inline KDE_DEPRECATED bool deprecatedInlineFunctionD() { .. }
* \endcode
*
* You can also mark whole structs or classes as deprecated, by inserting the
* KDE_DEPRECATED macro after the struct/class keyword, but before the
* name of the struct/class:
*
* \code
* class KDE_DEPRECATED DeprecatedClass { };
* struct KDE_DEPRECATED DeprecatedStruct { };
* \endcode
*
* \note
* It does not make much sense to use the KDE_DEPRECATED keyword for a Qt signal;
* this is because usually get called by the class which they belong to,
* and one would assume that a class author does not use deprecated methods of
* his own class. The only exception to this are signals which are connected to
* other signals; they get invoked from moc-generated code. In any case,
* printing a warning message in either case is not useful.
* For slots, it can make sense (since slots can be invoked directly) but be
* aware that if the slots get triggered by a signal, the will get called from
* moc code as well and thus the warnings are useless.
*
* \par
* Also note that it is not possible to use KDE_DEPRECATED for classes which
* use the k_dcop keyword (to indicate a DCOP interface declaration); this is
* because the dcopidl program would choke on the unexpected declaration
* syntax.
*
* \note
* KDE_DEPRECATED cannot be used at the end of the declaration anymore,
* unlike what is done for KDE3.
*
* \note
* KDE_DEPRECATED cannot be used for constructors,
* use KDE_CONSTRUCTOR_DEPRECATED instead.
*/
#ifdef __cplusplus
# include <QtCore/qglobal.h>
# ifndef KDE_DEPRECATED
# ifdef KDE_DEPRECATED_WARNINGS
# define KDE_DEPRECATED Q_DECL_DEPRECATED
# else
# define KDE_DEPRECATED
# endif
# endif
#endif
/**
* @def KDE_CONSTRUCTOR_DEPRECATED
* @ingroup KDEMacros
*
* The KDE_CONSTRUCTOR_DEPRECATED macro can be used to trigger compile-time
* warnings with newer compilers when deprecated constructors are used.
*
* For non-inline constructors, the macro gets inserted at front of the
* constructor declaration, right before the return type:
*
* \code
* KDE_CONSTRUCTOR_DEPRECATED classA();
* \endcode
*
* For constructors which are implemented inline,
* the KDE_CONSTRUCTOR_DEPRECATED macro is inserted at the front,
* but after the "inline" keyword:
*
* \code
* KDE_CONSTRUCTOR_DEPRECATED classA() { .. }
* \endcode
*
* \note Do not forget that inlined constructors are not allowed in public
* headers for KDE.
*/
#ifndef KDE_CONSTRUCTOR_DEPRECATED
# ifdef __GNUC__
# if __GNUC__ == 3 && __GNUC_MINOR__ <= 3
/* GCC 3.3.x cannot handle Qt 4.1.2's definition of Q_DECL_CONSTRUCTOR_DEPRECATED */
# define KDE_CONSTRUCTOR_DEPRECATED
# else
# define KDE_CONSTRUCTOR_DEPRECATED Q_DECL_CONSTRUCTOR_DEPRECATED
# endif
# else
# define KDE_CONSTRUCTOR_DEPRECATED Q_DECL_CONSTRUCTOR_DEPRECATED
# endif
#endif
/**
* @def KDE_NO_DEPRECATED
* @ingroup KDEMacros
*
* The KDE_NO_DEPRECATED indicates if the deprecated symbols of the platform
* have been compiled out.
*/
#cmakedefine KDE_NO_DEPRECATED
/**
* @def KDE_ISLIKELY
* @ingroup KDEMacros
*
* The KDE_ISLIKELY macro tags a boolean expression as likely to evaluate to
* @c true. When used in an <tt>if ( )</tt> statement, it gives a hint to the compiler
* that the following codeblock is likely to get executed. Providing this
* information helps the compiler to optimize the code for better performance.
* Using the macro has an insignificant code size or runtime memory footprint impact.
* The code semantics is not affected.
*
* Example:
*
* \code
* if ( KDE_ISLIKELY( testsomething() ) )
* abort(); // assume its likely that the application aborts
* \endcode
*
* \note
* Providing wrong information ( like marking a condition that almost never
* passes as 'likely' ) will cause a significant runtime slowdown. Therefore only
* use it for cases where you can be sure about the odds of the expression to pass
* in all cases ( independent from e.g. user configuration ).
*
* \note
* Do NOT use ( !KDE_ISLIKELY(foo) ) as an replacement for KDE_ISUNLIKELY() !
*
* @sa KDE_ISUNLIKELY
*/
/**
* @def KDE_ISUNLIKELY
* @ingroup KDEMacros
*
* The KDE_ISUNLIKELY macro tags a boolean expression as likely to evaluate to
* @c false. When used in an <tt>if ( )</tt> statement, it gives a hint to the compiler
* that the following codeblock is unlikely to get executed. Providing this
* information helps the compiler to optimize the code for better performance.
* Using the macro has an insignificant code size or runtime memory footprint impact.
* The code semantics is not affected.
*
* Example:
*
* \code
* if ( KDE_ISUNLIKELY( testsomething() ) )
* abort(); // assume its unlikely that the application aborts
* \endcode
*
* \note
* Providing wrong information ( like marking a condition that almost never
* passes as 'unlikely' ) will cause a significant runtime slowdown. Therefore only
* use it for cases where you can be sure about the odds of the expression to pass
* in all cases ( independent from e.g. user configuration ).
*
* \note
* Do NOT use ( !KDE_ISUNLIKELY(foo) ) as an replacement for KDE_ISLIKELY() !
*
* @sa KDE_ISLIKELY
*/
#if defined(__GNUC__) && __GNUC__ - 0 >= 3
# define KDE_ISLIKELY( x ) __builtin_expect(!!(x),1)
# define KDE_ISUNLIKELY( x ) __builtin_expect(!!(x),0)
#else
# define KDE_ISLIKELY( x ) ( x )
# define KDE_ISUNLIKELY( x ) ( x )
#endif
/**
* @ingroup KDEMacros
* This macro, and it's friends going up to 10 reserve a fixed number of virtual
* functions in a class. Because adding virtual functions to a class changes the
* size of the vtable, adding virtual functions to a class breaks binary
* compatibility. However, by using this macro, and decrementing it as new
* virtual methods are added, binary compatibility can still be preserved.
*
* \note The added functions must be added to the header at the same location
* as the macro; changing the order of virtual functions in a header is also
* binary incompatible as it breaks the layout of the vtable.
*/
#define RESERVE_VIRTUAL_1 \
virtual void reservedVirtual1() {}
/**
* @ingroup KDEMacros
*/
#define RESERVE_VIRTUAL_2 \
virtual void reservedVirtual2() {} \
RESERVE_VIRTUAL_1
/**
* @ingroup KDEMacros
*/
#define RESERVE_VIRTUAL_3 \
virtual void reservedVirtual3() {} \
RESERVE_VIRTUAL_2
/**
* @ingroup KDEMacros
*/
#define RESERVE_VIRTUAL_4 \
virtual void reservedVirtual4() {} \
RESERVE_VIRTUAL_3
/**
* @ingroup KDEMacros
*/
#define RESERVE_VIRTUAL_5 \
virtual void reservedVirtual5() {} \
RESERVE_VIRTUAL_4
/**
* @ingroup KDEMacros
*/
#define RESERVE_VIRTUAL_6 \
virtual void reservedVirtual6() {} \
RESERVE_VIRTUAL_5
/**
* @ingroup KDEMacros
*/
#define RESERVE_VIRTUAL_7 \
virtual void reservedVirtual7() {} \
RESERVE_VIRTUAL_6
/**
* @ingroup KDEMacros
*/
#define RESERVE_VIRTUAL_8 \
virtual void reservedVirtual8() {} \
RESERVE_VIRTUAL_7
/**
* @ingroup KDEMacros
*/
#define RESERVE_VIRTUAL_9 \
virtual void reservedVirtual9() {} \
RESERVE_VIRTUAL_8
#define RESERVE_VIRTUAL_10 \
virtual void reservedVirtual10() {} \
RESERVE_VIRTUAL_9
/**
* @def KDE_FULL_TEMPLATE_EXPORT_INSTANTIATION
* @ingroup KDEMacros
*
* From Qt's global.h:
* Compilers which follow outdated template instantiation rules
* require a class to have a comparison operator to exist when
* a QList of this type is instantiated. It's not actually
* used in the list, though. Hence the dummy implementation.
* Just in case other code relies on it we better trigger a warning
* mandating a real implementation.
*
* In KDE we need this for classes which are exported in a shared
* lib because some compilers need a full instantiated class then.
*
* @sa KDE_DUMMY_COMPARISON_OPERATOR
* @sa KDE_DUMMY_QHASH_FUNCTION
*/
/**
* @def KDE_DUMMY_COMPARISON_OPERATOR
* @ingroup KDEMacros
*
* The KDE_DUMMY_COMPARISON_OPERATOR defines a simple
* compare operator for classes.
*
* @sa KDE_FULL_TEMPLATE_EXPORT_INSTANTIATION
* @sa KDE_DUMMY_QHASH_FUNCTION
*/
/**
* @def KDE_DUMMY_QHASH_FUNCTION
* @ingroup KDEMacros
*
* The KDE_DUMMY_QHASH_FUNCTION defines a simple
* hash-function for classes.
*
* @sa KDE_FULL_TEMPLATE_EXPORT_INSTANTIATION
* @sa KDE_DUMMY_COMPARISON_OPERATOR
*/
#ifdef KDE_FULL_TEMPLATE_EXPORT_INSTANTIATION
# define KDE_DUMMY_COMPARISON_OPERATOR(C) \
bool operator==(const C&) const { \
qWarning(#C"::operator==(const "#C"&) was called"); \
return false; \
}
# define KDE_DUMMY_QHASH_FUNCTION(C) \
inline uint qHash(const C) { \
qWarning("inline uint qHash(const "#C") was called"); \
return 0; \
}
#else
# define KDE_DUMMY_COMPARISON_OPERATOR(C)
# define KDE_DUMMY_QHASH_FUNCTION(C)
#endif
/**
* @def KDE_BF_ENUM
* @ingroup KDEMacros
*
* The KDE_BF_ENUM is used when storing an enum
* in a bitfield, to ensure correct conversion
* by all compilers.
*
* @sa KDE_CAST_BF_ENUM
*/
/**
* @def KDE_CAST_BF_ENUM
* @ingroup KDEMacros
*
* The KDE_CAST_BF_ENUM is used when retrieving an
* enum from a bitfield, to ensure correct conversion
* by all compilers.
*
* @sa KDE_BF_ENUM
*/
#ifdef Q_CC_MSVC
# define KDE_BF_ENUM(a) unsigned int
# define KDE_CAST_BF_ENUM(a,b) static_cast<a>(b)
#else
# define KDE_BF_ENUM(a) a
# define KDE_CAST_BF_ENUM(a,b) b
#endif
/**
* @def KDE_WEAK_SYMBOL
* @ingroup KDEMacros
*
* The KDE_WEAK_SYMBOL macro can be used to tell the compiler that
* a particular function should be a weak symbol (that e.g. may be overridden
* in another library, -Bdirect will not bind this symbol directly)
*/
#ifdef __GNUC__
#define KDE_WEAK_SYMBOL __attribute__((__weak__))
#else
#define KDE_WEAK_SYMBOL
#endif
/**
* @def KDE_MUST_USE_RESULT
* @ingroup KDEMacros
*
* The KDE_MUST_USE_RESULT macro can be used to tell the compiler that
* a particular functions return value must be checked.
*/
#ifdef __GNUC__
#define KDE_MUST_USE_RESULT __attribute__((__warn_unused_result__))
#else
#define KDE_MUST_USE_RESULT
#endif
#endif /* _KDE_MACROS_H_ */