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 /*!
     \page moc.html
     \title Using the Meta-Object Compiler (moc)
     \ingroup qttools
     \keyword moc

     The Meta-Object Compiler, \c moc, is the program that handles
     \l{Meta-Object System}{Qt's C++ extensions}.

     The \c moc tool reads a C++ header file. If it finds one or more
     class declarations that contain the Q_OBJECT macro, it
     produces a C++ source file containing the meta-object code for
     those classes. Among other things, meta-object code is required
     for the signals and slots mechanism, the run-time type information,
     and the dynamic property system.

     The C++ source file generated by \c moc must be compiled and
     linked with the implementation of the class.

     If you use \l qmake to create your makefiles, build rules will be
     included that call the moc when required, so you will not need to
     use the moc directly. For more background information on \c moc,
     see \l{Why Does Qt Use Moc for Signals and Slots?}

     \section1 Usage

     \c moc is typically used with an input file containing class
     declarations like this:

     \snippet snippets/moc/myclass1.h 0

     In addition to the signals and slots shown above, \c moc also
     implements object properties as in the next example. The
     Q_PROPERTY() macro declares an object property, while
     Q_ENUM() declares a list of enumeration types within the class
     to be usable inside the \l{Qt's Property System}{property
     system}.

     In the following example, we declare a property of the
     enumeration type \c Priority that is also called \c priority and
     has a get function \c priority() and a set function \c
     setPriority().

     \snippet snippets/moc/myclass2.h 0

     The Q_FLAGS() macro declares enums that are to be used
     as flags, i.e. OR'd together. Another macro, Q_CLASSINFO(),
     allows you to attach additional name/value pairs to the class's
     meta-object:

     \snippet snippets/moc/myclass3.h 0

     The output produced by \c moc must be compiled and linked, just
     like the other C++ code in your program; otherwise, the build
     will fail in the final link phase. If you use \c qmake, this is
     done automatically. Whenever \c qmake is run, it parses the
     project's header files and generates make rules to invoke \c moc
     for those files that contain a Q_OBJECT macro.

     If the class declaration is found in the file \c myclass.h, the
     moc output should be put in a file called \c moc_myclass.cpp.
     This file should then be compiled as usual, resulting in an
     object file, e.g., \c moc_myclass.obj on Windows. This object
     should then be included in the list of object files that are
     linked together in the final building phase of the program.

     \section1 Writing Make Rules for Invoking \c moc

     For anything but the simplest test programs, it is recommended
     that you automate running the \c{moc}. By adding some rules to
     your program's makefile, \c make can take care of running moc
     when necessary and handling the moc output.

     We recommend using the \l qmake makefile generation tool for
     building your makefiles. This tool generates a makefile that does
     all the necessary \c moc handling.

     If you want to create your makefiles yourself, here are some tips
     on how to include moc handling.

     For Q_OBJECT class declarations in header files, here is a
     useful makefile rule if you only use GNU make:

     \snippet snippets/code/doc_src_moc.qdoc 0

     If you want to write portably, you can use individual rules of
     the following form:

     \snippet snippets/code/doc_src_moc.qdoc 1

     You must also remember to add \c moc_foo.cpp to your \c SOURCES
     (substitute your favorite name) variable and \c moc_foo.o or \c
     moc_foo.obj to your \c OBJECTS variable.

     Both examples assume that \c $(DEFINES) and \c $(INCPATH) expand
     to the define and include path options that are passed to the C++
     compiler. These are required by \c moc to preprocess the source
     files.

     While we prefer to name our C++ source files \c .cpp, you can use
     any other extension, such as \c .C, \c .cc, \c .CC, \c .cxx, and
     \c .c++, if you prefer.

     For Q_OBJECT class declarations in implementation (\c .cpp)
     files, we suggest a makefile rule like this:

     \snippet snippets/code/doc_src_moc.qdoc 2

     This guarantees that make will run the moc before it compiles
     \c foo.cpp. You can then put

     \snippet snippets/code/doc_src_moc.cpp 3

     at the end of \c foo.cpp, where all the classes declared in that
     file are fully known.

     \section1 Command-Line Options

     Here are the command-line options supported by the moc:

     \table
     \header \li Option \li Description

     \row
     \li \c{-o<file>}
     \li Write output to \c <file> rather than to standard output.

     \row
     \li \c{-f[<file>]}
     \li Force the generation of an \c #include statement in the
     output. This is the default for header files whose extension
     starts with \c H or \c h. This option is useful if you have
     header files that do not follow the standard naming conventions.
     The \c <file> part is optional.

     \row
     \li \c -i
     \li Do not generate an \c #include statement in the output.
     This may be used to run the moc on on a C++ file containing one or
     more class declarations. You should then \c #include the meta-object
     code in the \c .cpp file.

     \row
     \li \c -nw
     \li Do not generate any warnings. (Not recommended.)

     \row
     \li \c {-p<path>}
     \li Makes the moc prepend \c {<path>/} to the file name in the
     generated \c #include statement.

     \row
     \li \c {-I<dir>}
     \li Add dir to the include path for header files.

     \row
     \li \c{-E}
     \li Preprocess only; do not generate meta-object code.

     \row
     \li \c {-D<macro>[=<def>]}
     \li Define macro, with optional definition.

     \row
     \li \c{-U<macro>}
     \li Undefine macro.

     \row
     \li \c{-M<key=value>}
     \li Append additional meta data to plugins. If a class
         has Q_PLUGIN_METADATA specified, the key-value pair will be added
         to its meta data. This will end up in the Json object that gets
         resolved for the plugin at run time (accessible from QPluginLoader).
         This argument is typically used for tagging static plugins with
         information resolved by the build system.

     \row
     \li \c{@<file>}
     \li Read additional command-line options from \c{<file>}.
     Each line of the file is treated as a single option. Empty lines
     are ignored. Note that this option is not supported within the
     options file itself (i.e. an options file can't "include" another
     file).

     \row
     \li \c{-h}
     \li Display the usage and the list of options.

     \row
     \li \c {-v}
     \li Display \c{moc}'s version number.

     \row
     \li \c{-Fdir}

     \li \macos. Add the framework directory \c{dir} to the head of
        the list of directories to be searched for header files. These
        directories are interleaved with those specified by -I options
        and are scanned in a left-to-right order (see the manpage for
        gcc). Normally, use -F /Library/Frameworks/

     \endtable

     You can explicitly tell the moc not to parse parts of a header
     file. \c moc defines the preprocessor symbol \c Q_MOC_RUN. Any
     code surrounded by

     \snippet snippets/code/doc_src_moc.cpp 4

     is skipped by the \c moc.

     \section1 Diagnostics

     \c moc will warn you about a number of dangerous or illegal
     constructs in the Q_OBJECT class declarations.

     If you get linkage errors in the final building phase of your
     program, saying that \c YourClass::className() is undefined or
     that \c YourClass lacks a vtable, something has been done wrong.
     Most often, you have forgotten to compile or \c #include the
     moc-generated C++ code, or (in the former case) include that
     object file in the link command. If you use \c qmake, try
     rerunning it to update your makefile. This should do the trick.

     \section1 Limitations

     \c moc does not handle all of C++. The main problem is that class
     templates cannot have the Q_OBJECT macro. Here is an example:

     \snippet snippets/code/doc_src_moc.cpp 5

     The following constructs are illegal. All of
     them have alternatives which we think are usually better, so
     removing these limitations is not a high priority for us.

     \section2 Multiple Inheritance Requires QObject to Be First

     If you are using multiple inheritance, \c moc assumes that the
     first inherited class is a subclass of QObject. Also, be sure
     that only the first inherited class is a QObject.

     \snippet snippets/code/doc_src_moc.cpp 6

     Virtual inheritance with QObject is \e not supported.

     \section2 Function Pointers Cannot Be Signal or Slot Parameters

     In most cases where you would consider using function pointers as
     signal or slot parameters, we think inheritance is a better
     alternative. Here is an example of illegal syntax:

     \snippet snippets/code/doc_src_moc.cpp 7

     You can work around this restriction like this:

     \snippet snippets/code/doc_src_moc.cpp 8

     It may sometimes be even better to replace the function pointer
     with inheritance and virtual functions.

     \section2 Enums and Typedefs Must Be Fully Qualified for Signal and Slot Parameters

     When checking the signatures of its arguments, QObject::connect()
     compares the data types literally. Thus,
     \l{Qt::Alignment}{Alignment} and \l{Qt::Alignment} are treated as
     two distinct types. To work around this limitation, make sure to
     fully qualify the data types when declaring signals and slots,
     and when establishing connections. For example:

     \snippet snippets/code/doc_src_moc.cpp 9

     \section2 Nested Classes Cannot Have Signals or Slots

     Here's an example of the offending construct:

     \snippet snippets/code/doc_src_moc.cpp 11

     \section2 Signal/Slot return types cannot be references

     Signals and slots can have return types, but signals or slots returning references
     will be treated as returning void.

     \section2 Only Signals and Slots May Appear in the \c signals and \c slots Sections of a Class

     \c moc will complain if you try to put other constructs in the \c
     signals or \c slots sections of a class than signals and slots.

     \sa {Meta-Object System}, {Signals and Slots}, {Qt's Property System}
 */
	/****************************************************************************
	**
	** Copyright (C) 2016 The Qt Company Ltd.
	** Contact: https://www.qt.io/licensing/
	**
	** This file is part of the documentation of the Qt Toolkit.
	**
	** $QT_BEGIN_LICENSE:FDL$
	** Commercial License Usage
	** Licensees holding valid commercial Qt licenses may use this file in
	** accordance with the commercial license agreement provided with the
	** Software or, alternatively, in accordance with the terms contained in
	** a written agreement between you and The Qt Company. For licensing terms
	** and conditions see https://www.qt.io/terms-conditions. For further
	** information use the contact form at https://www.qt.io/contact-us.
	**
	** GNU Free Documentation License Usage
	** Alternatively, this file may be used under the terms of the GNU Free
	** Documentation License version 1.3 as published by the Free Software
	** Foundation and appearing in the file included in the packaging of
	** this file. Please review the following information to ensure
	** the GNU Free Documentation License version 1.3 requirements
	** will be met: https://www.gnu.org/licenses/fdl-1.3.html.
	** $QT_END_LICENSE$
	**
	****************************************************************************/

	/*!
	\page moc.html
	\title Using the Meta-Object Compiler (moc)
	\ingroup qttools
	\keyword moc

	The Meta-Object Compiler, \c moc, is the program that handles
	\l{Meta-Object System}{Qt's C++ extensions}.

	The \c moc tool reads a C++ header file. If it finds one or more
	class declarations that contain the Q_OBJECT macro, it
	produces a C++ source file containing the meta-object code for
	those classes. Among other things, meta-object code is required
	for the signals and slots mechanism, the run-time type information,
	and the dynamic property system.

	The C++ source file generated by \c moc must be compiled and
	linked with the implementation of the class.

	If you use \l qmake to create your makefiles, build rules will be
	included that call the moc when required, so you will not need to
	use the moc directly. For more background information on \c moc,
	see \l{Why Does Qt Use Moc for Signals and Slots?}

	\section1 Usage

	\c moc is typically used with an input file containing class
	declarations like this:

	\snippet snippets/moc/myclass1.h 0

	In addition to the signals and slots shown above, \c moc also
	implements object properties as in the next example. The
	Q_PROPERTY() macro declares an object property, while
	Q_ENUM() declares a list of enumeration types within the class
	to be usable inside the \l{Qt's Property System}{property
	system}.

	In the following example, we declare a property of the
	enumeration type \c Priority that is also called \c priority and
	has a get function \c priority() and a set function \c
	setPriority().

	\snippet snippets/moc/myclass2.h 0

	The Q_FLAGS() macro declares enums that are to be used
	as flags, i.e. OR'd together. Another macro, Q_CLASSINFO(),
	allows you to attach additional name/value pairs to the class's
	meta-object:

	\snippet snippets/moc/myclass3.h 0

	The output produced by \c moc must be compiled and linked, just
	like the other C++ code in your program; otherwise, the build
	will fail in the final link phase. If you use \c qmake, this is
	done automatically. Whenever \c qmake is run, it parses the
	project's header files and generates make rules to invoke \c moc
	for those files that contain a Q_OBJECT macro.

	If the class declaration is found in the file \c myclass.h, the
	moc output should be put in a file called \c moc_myclass.cpp.
	This file should then be compiled as usual, resulting in an
	object file, e.g., \c moc_myclass.obj on Windows. This object
	should then be included in the list of object files that are
	linked together in the final building phase of the program.

	\section1 Writing Make Rules for Invoking \c moc

	For anything but the simplest test programs, it is recommended
	that you automate running the \c{moc}. By adding some rules to
	your program's makefile, \c make can take care of running moc
	when necessary and handling the moc output.

	We recommend using the \l qmake makefile generation tool for
	building your makefiles. This tool generates a makefile that does
	all the necessary \c moc handling.

	If you want to create your makefiles yourself, here are some tips
	on how to include moc handling.

	For Q_OBJECT class declarations in header files, here is a
	useful makefile rule if you only use GNU make:

	\snippet snippets/code/doc_src_moc.qdoc 0

	If you want to write portably, you can use individual rules of
	the following form:

	\snippet snippets/code/doc_src_moc.qdoc 1

	You must also remember to add \c moc_foo.cpp to your \c SOURCES
	(substitute your favorite name) variable and \c moc_foo.o or \c
	moc_foo.obj to your \c OBJECTS variable.

	Both examples assume that \c $(DEFINES) and \c $(INCPATH) expand
	to the define and include path options that are passed to the C++
	compiler. These are required by \c moc to preprocess the source
	files.

	While we prefer to name our C++ source files \c .cpp, you can use
	any other extension, such as \c .C, \c .cc, \c .CC, \c .cxx, and
	\c .c++, if you prefer.

	For Q_OBJECT class declarations in implementation (\c .cpp)
	files, we suggest a makefile rule like this:

	\snippet snippets/code/doc_src_moc.qdoc 2

	This guarantees that make will run the moc before it compiles
	\c foo.cpp. You can then put

	\snippet snippets/code/doc_src_moc.cpp 3

	at the end of \c foo.cpp, where all the classes declared in that
	file are fully known.

	\section1 Command-Line Options

	Here are the command-line options supported by the moc:

	\table
	\header \li Option \li Description

	\row
	\li \c{-o<file>}
	\li Write output to \c <file> rather than to standard output.

	\row
	\li \c{-f[<file>]}
	\li Force the generation of an \c #include statement in the
	output. This is the default for header files whose extension
	starts with \c H or \c h. This option is useful if you have
	header files that do not follow the standard naming conventions.
	The \c <file> part is optional.

	\row
	\li \c -i
	\li Do not generate an \c #include statement in the output.
	This may be used to run the moc on on a C++ file containing one or
	more class declarations. You should then \c #include the meta-object
	code in the \c .cpp file.

	\row
	\li \c -nw
	\li Do not generate any warnings. (Not recommended.)

	\row
	\li \c {-p<path>}
	\li Makes the moc prepend \c {<path>/} to the file name in the
	generated \c #include statement.

	\row
	\li \c {-I<dir>}
	\li Add dir to the include path for header files.

	\row
	\li \c{-E}
	\li Preprocess only; do not generate meta-object code.

	\row
	\li \c {-D<macro>[=<def>]}
	\li Define macro, with optional definition.

	\row
	\li \c{-U<macro>}
	\li Undefine macro.

	\row
	\li \c{-M<key=value>}
	\li Append additional meta data to plugins. If a class
	has Q_PLUGIN_METADATA specified, the key-value pair will be added
	to its meta data. This will end up in the Json object that gets
	resolved for the plugin at run time (accessible from QPluginLoader).
	This argument is typically used for tagging static plugins with
	information resolved by the build system.

	\row
	\li \c{@<file>}
	\li Read additional command-line options from \c{<file>}.
	Each line of the file is treated as a single option. Empty lines
	are ignored. Note that this option is not supported within the
	options file itself (i.e. an options file can't "include" another
	file).

	\row
	\li \c{-h}
	\li Display the usage and the list of options.

	\row
	\li \c {-v}
	\li Display \c{moc}'s version number.

	\row
	\li \c{-Fdir}

	\li \macos. Add the framework directory \c{dir} to the head of
	the list of directories to be searched for header files. These
	directories are interleaved with those specified by -I options
	and are scanned in a left-to-right order (see the manpage for
	gcc). Normally, use -F /Library/Frameworks/

	\endtable

	You can explicitly tell the moc not to parse parts of a header
	file. \c moc defines the preprocessor symbol \c Q_MOC_RUN. Any
	code surrounded by

	\snippet snippets/code/doc_src_moc.cpp 4

	is skipped by the \c moc.

	\section1 Diagnostics

	\c moc will warn you about a number of dangerous or illegal
	constructs in the Q_OBJECT class declarations.

	If you get linkage errors in the final building phase of your
	program, saying that \c YourClass::className() is undefined or
	that \c YourClass lacks a vtable, something has been done wrong.
	Most often, you have forgotten to compile or \c #include the
	moc-generated C++ code, or (in the former case) include that
	object file in the link command. If you use \c qmake, try
	rerunning it to update your makefile. This should do the trick.

	\section1 Limitations

	\c moc does not handle all of C++. The main problem is that class
	templates cannot have the Q_OBJECT macro. Here is an example:

	\snippet snippets/code/doc_src_moc.cpp 5

	The following constructs are illegal. All of
	them have alternatives which we think are usually better, so
	removing these limitations is not a high priority for us.

	\section2 Multiple Inheritance Requires QObject to Be First

	If you are using multiple inheritance, \c moc assumes that the
	first inherited class is a subclass of QObject. Also, be sure
	that only the first inherited class is a QObject.

	\snippet snippets/code/doc_src_moc.cpp 6

	Virtual inheritance with QObject is \e not supported.

	\section2 Function Pointers Cannot Be Signal or Slot Parameters

	In most cases where you would consider using function pointers as
	signal or slot parameters, we think inheritance is a better
	alternative. Here is an example of illegal syntax:

	\snippet snippets/code/doc_src_moc.cpp 7

	You can work around this restriction like this:

	\snippet snippets/code/doc_src_moc.cpp 8

	It may sometimes be even better to replace the function pointer
	with inheritance and virtual functions.

	\section2 Enums and Typedefs Must Be Fully Qualified for Signal and Slot Parameters

	When checking the signatures of its arguments, QObject::connect()
	compares the data types literally. Thus,
	\l{Qt::Alignment}{Alignment} and \l{Qt::Alignment} are treated as
	two distinct types. To work around this limitation, make sure to
	fully qualify the data types when declaring signals and slots,
	and when establishing connections. For example:

	\snippet snippets/code/doc_src_moc.cpp 9

	\section2 Nested Classes Cannot Have Signals or Slots

	Here's an example of the offending construct:

	\snippet snippets/code/doc_src_moc.cpp 11

	\section2 Signal/Slot return types cannot be references

	Signals and slots can have return types, but signals or slots returning references
	will be treated as returning void.

	\section2 Only Signals and Slots May Appear in the \c signals and \c slots Sections of a Class

	\c moc will complain if you try to put other constructs in the \c
	signals or \c slots sections of a class than signals and slots.

	\sa {Meta-Object System}, {Signals and Slots}, {Qt's Property System}
	*/