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moc (1)
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    NAME

    moc - generate Qt meta object support code
     
    

    SYNOPSIS

    moc [-o file] [-i] [-f] [-k] [-ldbg] [-nw] [-p path] [-q path] file  

    DESCRIPTION

    This page documents the Meta Object Compiler for the Qt GUI application framework. The moc reads one or more C++ class declarations from a C++ header or source file and generates one C++ source file containing meta object information for the classes. The C++ source file generated by the moc must be compiled and linked with the implementation of the class (or it can be #included into the class' source file).

    In brief, the meta object system is a structure used by Qt (see http://doc.trolltech.com) for component programming and run time type information. It adds properties and inheritance information to (some) classes and provides a new type of communication between those instances of those classes, signal-slot connections.  

    OPTIONS

    -o file
    Write output to file rather than to stdout.
    -f
    Force the generation of an #include statement in the output. This is the default for files whose name matches the regular expression .[hH][^.]* (ie. the extension starts with H or h ). This option is only useful if you have header files that do not follow the standard naming conventions.
    -i
    Do not generate an #include statement in the output. This may be used to run moc on a C++ file containing one or more class declarations. You should then #include the meta object code in the .cpp file (see USAGE below). If both -f and -i are present, the last one wins.
    -nw
    Do not generate any warnings. Discouraged.
    -ldbg
    Write a flood of lex debug information on stdout.
    -p path
    Makes moc prepend path/ to the file name in the generated #include statement (if one is generated).
    -q path
    Makes moc prepend path/ to the file name of qt #include files in the generated code.

    You can explicitely tell the moc to not parse parts of a header file. It recognizes any C++ comment (//) that contains the substrings MOC_SKIP_BEGIN or MOC_SKIP_END. They work as you would expect and you can have several levels of them. The net result as seen by the moc is as if you had removed all lines between a MOC_SKIP_BEGIN and a MOC_SKIP_END  

    USAGE

    moc is almost always invoked by make(1), not by hand.

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

    class YourClass: public QObject {
        Q_OBJECT
        Q_PROPERTY( ... )
        Q_CLASSINFO( ... )
    
    public:
        YourClass( QObject * parent=0, const char * name=0 );
        ~YourClass();
    
    signals:
    
    public slots:
    
    };
    

    Here is a useful makefile rule if you only use GNU make:

    m%.cpp: %.h
            moc $< -o $@
    

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

    mNAME.cpp: NAME.h
            moc $< -o $@
    

    You must also remember to add mNAME.cpp to your SOURCES (substitute your favorite name) variable and mNAME.o to your OBJECTS variable.

    (While we prefer to name our C++ source files .cpp, the moc doesn't know that, so you can use .C, .cc, .CC, .cxx or even .c++ if you prefer.)

    If you have class declarations in C++ files, we recommend that you use a makefile rule like this:

    NAME.o: mNAME.cpp
    
    mNAME.cpp: NAME.cpp
            moc -i $< -o $@
    

    This guarantees that make(1) will run the moc before it compiles NAME.cpp. You can then put


         #include "nNAME.cpp"

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

    DIAGNOSTICS

    Sometimes you may get linkage errors, saying that YourClass::className() is undefined or that YourClass lacks a vtbl. Those errors happen most often when you forget to compile the moc-generated C++ code or include that object file in the link command.

    The moc will warn you about a number of dangerous or illegal constructs.  

    BUGS

    The moc does not expand #include or #define, it simply skips any preprocessor directives it encounters. This is regrettable, but is normally not a problem in practice.

    The moc does not handle all of C++. The main problem is that class templates cannot have signals or slots. This is an important bug. Here is an example:

    class SomeTemplate<int>: public QFrame {
        Q_OBJECT
        [...]
    signals:
        void bugInMocDetected( int );
    };
    

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

    Multiple inheritance requires QObject to be first.

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

    class SomeClass: public QObject, public OtherClass {
        [...]
    };
    

    This bug is almost impossible to fix; since the moc does not expand #include or #define, it cannot find out which one of the base classes is a QObject.  

    QObject may not be virtually inherited

    You can not use virtual inheritance in the QObject branch of the inheritance tree. The following example shows one wrong and one correct class declaration:

    class Wrong: virtual public QObject, virtual public Other {
        [...]
    };
    
    class Right: public QObject, virtual public Other {
        [...]
    };
    
     

    Virtual functions cannot be slots when using multiple inheritance

    This problem occurs if you are using multiple inheritance. If you reimplement a virtual function as a slot and that function was originally declared in a class that does not inherit QObject, your program may crash when a signal triggers the slot. (This only happens with some compilers.)

    The following example shows one wrong and two correct slot definitions.

    class BaseClass {
        [...]
        virtual void setValue( int );
    };
    
    class SubClass: public QObject, public BaseClass {
        [...]
    public slots:
        void setValue( int ); // illegal
        void slotSetValue( int i ) { setValue(i); } // ok
        void setName( const char* ); // ok
    };
    

    (For those interested in C++ internals: The cause of this problem is that a slot is internally represented as a function pointer, and invoked on a QObject pointer. )  

    Function pointers can not be arguments to signals or slots.

    In most cases where you would consider that, we think inheritance is a better alternative. Here is an example of illegal syntax:

    class someClass: public QObject {
        Q_OBJECT
        [...]
    public slots:
        void apply(void (*ApplyFunction)(QList*, void*)); // illegal
    };
    

    You can work around this restriction like this:

    typedef void (*ApplyFunctionType)(QList*, void*);
    
    class someClass: public QObject {
        Q_OBJECT
        [...]
    public slots:
        void apply( ApplyFunctionType );
    };
    

    (It may sometimes be even better to replace the function pointer with inheritance and virtual functions, signals or slots.)  

    Friend declarations can not be placed in signals or slots sections

    Sometimes it will work, but in general, friend declarations can not be placed in signals or slots sections. Put them in the good old private, protected or public sections instead. Here is an example of the illegal syntax:

    class someClass: public QObject {
        Q_OBJECT
        [...]
    signals:
        friend class ClassTemplate<char>; // illegal
    };
    
     

    Signals and slots cannot be upgraded

    The C++ feature of upgrading an inherited member function to public status is not extended to cover signals and slots. Here is an illegal example:

    class Whatever: public QButtonGroup {
        [...]
    public slots:
        void QButtonGroup::buttonPressed(); // illegal
    };
    

    The QButtonGroup::buttonPressed() slot is protected.

    C++ quiz: What happens if you try to upgrade a protected member function which is overloaded?

    - All the functions are upgraded.
    - That is not legal C++.
     

    Type macros can not be used for signal and slot arguments

    Since the moc does not expand #define, type macros that take an argument will not work in signals and slots. Here is an illegal example:

    #ifdef ultrix
    #define SIGNEDNESS(a) unsigned a
    #else
    #define SIGNEDNESS(a) a
    #endif
    class Whatever: public QObject {
    [...]
    signals:
        void someSignal( SIGNEDNESS(a) ); // illegal
    };
    
    A #define without arguments works.
    
     

    Nested classes cannot be in the signals or slots sections nor have signals or slots

    Here's an example:

    class A {
        Q_OBJECT
    public:
        class B {
        public slots: // illegal
            void b();
        [....]
        };
    signals:
        class B {  // illegal
            void b();
            [....]
        }:
    };
    

     

    Constructors can not be used in signals or slots sections

    It is a mystery to me why anyone would put a constructor on either the signals or slots sections. You can not, anyway (except that it happens to work in some cases). Put them in private, protected or public sections, where they belong. Here is an example of the illegal syntax:

    class SomeClass: public QObject {
        Q_OBJECT
    public slots:
        SomeClass( QObject *parent, const char *name )
            : QObject( parent, name ) {} // illegal
        [...]
    };
    
     

    Signals and slots may not have default arguments

    Since signal->slot binding occurs at run-time, it is conceptually difficult to use default parameters, which are a compile-time phenomenon. This will fail:

    class SomeClass: public QObject {
        Q_OBJECT
    public slots:
        void someSlot(int x=100); // illegal
    };
    
     

    Signals and slots may not have template arguments

    Declaring signals and slots with template-type parameters will not work as expected, even though the moc will not complain. Connecting the signal to the slot in the following example, the slot will not get executed when the signal is emitted:

    public slots:
        void MyWidget::setLocation(pair<int,int> location); // illegal
        [...]
    public signals:
        void MyObject::moved(pair<int,int> location); // illegal
    

    However, you can work around this limitation by explicitly typedef'ing the parameter types, like this:

    typedef pair<int,int> IntPair;  
    
    public slots:
        void MyWidget::setLocation(IntPair location);
        [...]
    public signals:
        void MyObject::moved(IntPair location);
    

    This will work as expected.

     

    Namespace of parent class must be specified even if it is the same as that of the subclass

    In the following example, classes x::A and x::B are defined:

    namespace x {
        class A : public QObject {
            Q_OBJECT
    
        public:
            ...
        };
    }
    
    namespace x {
        class B : public A {
            Q_OBJECT
    
        public:
            ...
        };
    }
    

    Unfortunately, moc will not understand the

        class B : public A {
    

    line. You have either to write

        class B : public x::A {
    

    or define classes A and B in the same namespace block.

    This limitation will disappear with Qt 3.0.

     

    Properties need to be declared before the public section that contains the respective get and set functions

    Declaring the first property within or after the public section that contains the type definition and the respective get and set functions does not work as expected. The moc will complain that it can neither find the functions nor resolve the type. Here is an example of the illegal syntax:

    class SomeClass: public QObject {
        Q_OBJECT
    public:
        [...]
        // illegal
        Q_PROPERTY( Priority priority READ priority WRITE setPriority )
        Q_ENUMS( Priority )
        enum Priority { High, Low, VeryHigh, VeryLow };
        void setPriority( Priority );
        Priority priority() const;
        [...]
    };
    

    Work around this limitation by declaring all properties at the beginning of the class declaration, right after Q_OBJECT:

    class SomeClass: public QObject {
        Q_OBJECT
        Q_PROPERTY( Priority priority READ priority WRITE setPriority )
        Q_ENUMS( Priority )
    public:
        [...]
        enum Priority { High, Low, VeryHigh, VeryLow };
        void setPriority( Priority );
        Priority priority() const;
        [...]
    };
    

     

    SEE ALSO

    http://www.trolltech.com/ and C++ ARM, section r.11.3 (for the answer to the quiz.)  

    AUTHOR

    Eirik Eng, Trolltech <[email protected]>


     

    Index

    NAME
    SYNOPSIS
    DESCRIPTION
    OPTIONS
    USAGE
    DIAGNOSTICS
    BUGS
    Multiple inheritance requires QObject to be first.
    QObject may not be virtually inherited
    Virtual functions cannot be slots when using multiple inheritance
    Function pointers can not be arguments to signals or slots.
    Friend declarations can not be placed in signals or slots sections
    Signals and slots cannot be upgraded
    Type macros can not be used for signal and slot arguments
    Nested classes cannot be in the signals or slots sections nor have signals or slots
    Constructors can not be used in signals or slots sections
    Signals and slots may not have default arguments
    Signals and slots may not have template arguments
    Namespace of parent class must be specified even if it is the same as that of the subclass
    Properties need to be declared before the public section that contains the respective get and set functions
    SEE ALSO
    AUTHOR


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