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514 lines
15 KiB
514 lines
15 KiB
/****************************************************************************
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**
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** Moc usage, expanded from the manual page
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**
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** Copyright (C) 1992-2008 Trolltech ASA. All rights reserved.
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**
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** This file is part of the TQt GUI Toolkit.
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**
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** This file may be used under the terms of the GNU General
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** Public License versions 2.0 or 3.0 as published by the Free
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** Software Foundation and appearing in the files LICENSE.GPL2
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** and LICENSE.GPL3 included in the packaging of this file.
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** Alternatively you may (at your option) use any later version
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** of the GNU General Public License if such license has been
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** publicly approved by Trolltech ASA (or its successors, if any)
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** and the KDE Free TQt Foundation.
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**
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** Please review the following information to ensure GNU General
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** Public Licensing requirements will be met:
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** http://trolltech.com/products/qt/licenses/licensing/opensource/.
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** If you are unsure which license is appropriate for your use, please
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** review the following information:
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** http://trolltech.com/products/qt/licenses/licensing/licensingoverview
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** or contact the sales department at sales@trolltech.com.
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**
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** This file may be used under the terms of the Q Public License as
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** defined by Trolltech ASA and appearing in the file LICENSE.QPL
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** included in the packaging of this file. Licensees holding valid Qt
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** Commercial licenses may use this file in accordance with the Qt
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** Commercial License Agreement provided with the Software.
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**
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** This file is provided "AS IS" with NO WARRANTY OF ANY KIND,
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** INCLUDING THE WARRANTIES OF DESIGN, MERCHANTABILITY AND FITNESS FOR
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** A PARTICULAR PURPOSE. Trolltech reserves all rights not granted
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** herein.
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**
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**********************************************************************/
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// Note: Text in this file must also be copied to the moc man page:
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// src/moc/moc.1
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/*!
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\page moc.html
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\title Using the Meta Object Compiler
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\keyword moc
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The Meta Object Compiler, moc among friends, is the program which
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handles Qt's \link metaobjects.html C++ extensions.\endlink
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The moc reads a C++ source file. If it finds one or more class
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declarations that contain the TQ_OBJECT macro, it produces another
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C++ source file which contains the meta object code for the classes
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that use the TQ_OBJECT macro. Among other things, meta object code is
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required for the signal/slot mechanism, runtime type information and
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the dynamic property system.
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The C++ source file generated by the moc must be compiled and linked
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with the implementation of the class (or it can be #included into the
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class's source file).
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If you use \link qmake-manual.book qmake\endlink to create your
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Makefiles, build rules will be included that call the moc when
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required, so you will not need to use the moc directly. For more
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background information on moc, see \link templates.html Why doesn't Qt
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use templates for signals and slots?\endlink.
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\section1 Usage
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The moc is typically used with an input file containing class declarations
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like this:
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\code
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class MyClass : public TQObject
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{
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TQ_OBJECT
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public:
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MyClass( TQObject * parent=0, const char * name=0 );
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~MyClass();
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signals:
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void mySignal();
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public slots:
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void mySlot();
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};
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\endcode
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In addition to the signals and slots shown above, the moc also
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implements object properties as in the next example. The TQ_PROPERTY
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macro declares an object property, while TQ_ENUMS declares a list of
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enumeration types within the class to be usable inside the
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\link properties.html property system\endlink. In this particular
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case we declare a property of the enumeration type \c Priority that is
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also called "priority" and has a get function \c priority() and a set
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function \c setPriority().
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\code
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class MyClass : public TQObject
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{
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TQ_OBJECT
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TQ_PROPERTY( Priority priority READ priority WRITE setPriority )
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TQ_ENUMS( Priority )
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public:
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MyClass( TQObject * parent=0, const char * name=0 );
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~MyClass();
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enum Priority { High, Low, VeryHigh, VeryLow };
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void setPriority( Priority );
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Priority priority() const;
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};
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\endcode
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Properties can be modified in subclasses with the TQ_OVERRIDE
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macro. The TQ_SETS macro declares enums that are to be used as
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sets, i.e. OR'ed together. Another macro, TQ_CLASSINFO, can be used to
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attach additional name/value-pairs to the class' meta object:
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\code
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class MyClass : public TQObject
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{
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TQ_OBJECT
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TQ_CLASSINFO( "Author", "Oscar Peterson")
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TQ_CLASSINFO( "Status", "Active")
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public:
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MyClass( TQObject * parent=0, const char * name=0 );
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~MyClass();
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};
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\endcode
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The three concepts, signals and slots, properties and class
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meta-data, can be combined.
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The output produced by the moc must be compiled and linked, just like
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the other C++ code in your program; otherwise the build will fail in
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the final link phase. By convention, this is done in one of the
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following two ways:
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<dl>
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<dt><b>Method A: The class declaration is found in a header
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(\e .h) file</b>
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<dd>If the class declaration above is found in the file
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\e myclass.h, the moc output should be put in a file called
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\e moc_myclass.cpp. This file should then be compiled as
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usual, resulting in an object file \e moc_myclass.o (on Unix)
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or \e moc_myclass.obj (on Windows). This object should then be
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included in the list of object files that are linked together in the
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final building phase of the program.
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<dt><b>Method B: The class declaration is found in an implementation
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(\e .cpp) file</b>
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<dd>If the class declaration above is found in the file
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\e myclass.cpp, the moc output should be put in a file called
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\e myclass.moc. This file should be #included in the
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implementation file, i.e. \e myclass.cpp should contain the
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line
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\code
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#include "myclass.moc"
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\endcode
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at the end. This will cause the moc-generated code to be compiled and
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linked together with the normal class definition in \e myclass.cpp, so
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it is not necessary to compile and link it separately, as in Method A.
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</dl>
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Method A is the normal method. Method B can be used in cases where you
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want the implementation file to be self-contained, or in cases where
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the TQ_OBJECT class is implementation-internal and thus should not be
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visible in the header file.
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\section1 Automating moc Usage with Makefiles
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For anything but the simplest test programs, it is recommended that
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you automate running the moc. By adding some rules to your program's
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Makefile, \e make can take care of running moc when necessary and
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handling the moc output.
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We recommend using Trolltech's free makefile generation tool, \link
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qmake-manual.book qmake\endlink, for building your Makefiles. This tool
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recognizes both Method A and B style source files, and generates a
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Makefile that does all the necessary moc handling.
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If you want to create your Makefiles yourself, here are some tips on
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how to include moc handling.
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For TQ_OBJECT class declarations in header files, here is a useful
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makefile rule if you only use GNU make:
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\code
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moc_%.cpp: %.h
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moc $< -o $@
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\endcode
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If you want to write portably, you can use individual rules with the
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following form:
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\code
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moc_NAME.cpp: NAME.h
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moc $< -o $@
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\endcode
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You must also remember to add \e moc_NAME.cpp to your SOURCES
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(substitute your favorite name) variable and \e moc_NAME.o or
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\e moc_NAME.obj to your OBJECTS variable.
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(While we prefer to name our C++ source files .cpp, the moc doesn't
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care, so you can use .C, .cc, .CC, .cxx or even .c++ if you
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prefer.)
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For TQ_OBJECT class declarations in implementation (.cpp) files, we
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suggest a makefile rule like this:
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\code
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NAME.o: NAME.moc
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NAME.moc: NAME.cpp
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moc -i $< -o $@
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\endcode
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This guarantees that make will run the moc before it compiles
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\e NAME.cpp. You can then put
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\code
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#include "NAME.moc"
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\endcode
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at the end of \e NAME.cpp, where all the classes declared in
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that file are fully known.
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\section1 Invoking moc
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Here are the command-line options supported by the moc:
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\table
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\header \i Option \i Meaning
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\row
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\i -o \e file
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\i Write output to \e file rather than to stdout.
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\row
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\i -f
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\i Force the generation of an #include statement in the
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output. This is the default for files whose name matches the regular
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expression \.[hH][^.]* (i.e. the extension starts with H or h). This
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option is only useful if you have header files that do not follow the
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standard naming conventions.
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\row
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\i -i
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\i Do not generate an #include statement in the output.
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This may be used to run the moc on on a C++ file containing one or
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more class declarations. You should then #include the meta object
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code in the .cpp
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file. If both -i and -f are present, the last one wins.
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\row
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\i -nw
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\i Do not generate any warnings. Not recommended.
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\row
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\i -ldbg
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\i Write a flood of lex debug information to stdout.
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\row
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\i -p \e path
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\i Makes the moc prepend \e {path}/ to
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the file name in the generated #include statement (if one is
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generated).
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\row
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\i -q \e path
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\i Makes the moc prepend \e {path}/ to
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the file name of qt #include files in the generated code.
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\endtable
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You can explicitly tell the moc not to parse parts of a header
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file. It recognizes any C++ comment (//) that contains the substrings
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MOC_SKIP_BEGIN or MOC_SKIP_END. They work as you would expect and you
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can have several levels of them. The net result as seen by the moc is
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as if you had removed all lines between a MOC_SKIP_BEGIN and a
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MOC_SKIP_END.
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\section1 Diagnostics
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The moc will warn you about a number of dangerous or illegal
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constructs in the TQ_OBJECT class declarations.
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If you get linkage errors in the final building phase of your
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program, saying that YourClass::className() is undefined or that
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YourClass lacks a vtbl, something has been done wrong. Most often,
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you have forgotten to compile or #include the moc-generated C++ code, or
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(in the former case) include that object file in the link command.
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\section1 Limitations
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The moc does not expand #include or #define, it simply skips any
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preprocessor directives it encounters. This is regrettable, but is
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not usually a problem in practice.
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The moc does not handle all of C++. The main problem is that class
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templates cannot have signals or slots. Here is an example:
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\code
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class SomeTemplate<int> : public TQFrame {
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TQ_OBJECT
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...
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signals:
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void bugInMocDetected( int );
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};
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\endcode
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Less importantly, the following constructs are illegal. All of them
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have alternatives which we think are usually better, so removing these
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limitations is not a high priority for us.
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\section2 Multiple inheritance requires TQObject to be first
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If you are using multiple inheritance, moc assumes that the \e first
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inherited class is a subclass of TQObject. Also, be sure that \e only
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the first inherited class is a TQObject.
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\code
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class SomeClass : public TQObject, public OtherClass {
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...
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};
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\endcode
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(This limitation is almost impossible to remove; since the moc does not expand
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#include or #define, it cannot find out which one of the base classes
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is a TQObject.)
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\section2 Function pointers cannot be arguments to signals or slots
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In most cases where you would consider using function pointers as
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signal/slot arguments, we think inheritance is a better alternative.
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Here is an example of illegal syntax:
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\code
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class SomeClass : public TQObject {
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TQ_OBJECT
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...
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public slots:
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// illegal
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void apply( void (*apply)(List *, void *), char * );
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};
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\endcode
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You can work around this restriction like this:
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\code
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typedef void (*ApplyFunctionType)( List *, void * );
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class SomeClass : public TQObject {
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TQ_OBJECT
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...
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public slots:
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void apply( ApplyFunctionType, char * );
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};
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\endcode
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It may sometimes be even better to replace the function pointer with
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inheritance and virtual functions, signals or slots.
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\section2 Friend declarations cannot be placed in signals or slots sections
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Sometimes it will work, but in general, friend declarations cannot be
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placed in signals or slots sections. Put them in the private,
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protected or public sections instead. Here is an example of the
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illegal syntax:
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\code
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class SomeClass : public TQObject {
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TQ_OBJECT
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...
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signals:
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friend class ClassTemplate<char>; // WRONG
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};
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\endcode
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\section2 Signals and slots cannot be upgraded
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The C++ feature of upgrading an inherited member function to
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public status is not extended to cover signals and slots. Here is an
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illegal example:
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\code
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class Whatever : public TQButtonGroup {
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...
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public slots:
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TQButtonGroup::buttonPressed; // WRONG
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...
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};
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\endcode
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The TQButtonGroup::buttonPressed() slot is protected.
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C++ quiz: What happens if you try to upgrade a protected member
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function which is overloaded?
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\list 1
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\i All the functions are overloaded.
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\i That is not legal C++.
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\endlist
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\omit
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C++ ARM, section r.11.3
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\endomit
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\section2 Type macros cannot be used for signal and slot parameters
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Since the moc does not expand #define, type macros that take an argument
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will not work in signals and slots. Here is an illegal example:
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\code
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#ifdef ultrix
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#define SIGNEDNESS(a) unsigned a
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#else
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#define SIGNEDNESS(a) a
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#endif
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class Whatever : public TQObject {
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...
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signals:
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void someSignal( SIGNEDNESS(int) );
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...
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};
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\endcode
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A #define without parameters will work as expected.
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\section2 Nested classes cannot be in the signals or slots sections nor have
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signals or slots
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Here's an example:
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\code
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class A {
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TQ_OBJECT
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public:
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class B {
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public slots: // WRONG
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void b();
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...
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};
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signals:
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class B { // WRONG
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void b();
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...
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}:
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};
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\endcode
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\section2 Constructors cannot be used in signals or slots sections
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It is a mystery to us why anyone would put a constructor in
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either the signals or slots sections. You can't anyway (except
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that it happens to work in some cases). Put them in private,
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protected or public sections, where they belong. Here is an example
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of the illegal syntax:
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\code
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class SomeClass : public TQObject {
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TQ_OBJECT
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public slots:
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SomeClass( TQObject *parent, const char *name )
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: TQObject( parent, name ) { } // WRONG
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...
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};
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\endcode
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\section2 Properties need to be declared before the public section that
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contains the respective get and set functions
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Declaring the first property within or after the public section that
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contains the type definition and the respective get and set functions
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does not work as expected. The moc will complain that it can neither
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find the functions nor resolve the type. Here is an example of the
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illegal syntax:
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\code
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class SomeClass : public TQObject {
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TQ_OBJECT
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public:
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...
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TQ_PROPERTY( Priority priority READ priority WRITE setPriority ) // WRONG
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TQ_ENUMS( Priority ) // WRONG
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enum Priority { High, Low, VeryHigh, VeryLow };
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void setPriority( Priority );
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Priority priority() const;
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...
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};
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\endcode
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Work around this limitation by declaring all properties at the
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beginning of the class declaration, right after TQ_OBJECT:
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\code
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class SomeClass : public TQObject {
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TQ_OBJECT
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TQ_PROPERTY( Priority priority READ priority WRITE setPriority )
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TQ_ENUMS( Priority )
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public:
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...
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enum Priority { High, Low, VeryHigh, VeryLow };
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void setPriority( Priority );
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Priority priority() const;
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...
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};
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\endcode
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*/
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