share/swig/2.0.11/octave/octuserdir.swg - platform/prebuilts/swig/darwin-x86 - Git at Google

 /* -------------------------------------------------------------------------
  *  Special user directives
  * ------------------------------------------------------------------------- */

 /* ------------------------------------------------------------------------- */
 /*
   Implicit Conversion using the C++ constructor mechanism
 */

 #define %implicitconv      %feature("implicitconv")
 #define %noimplicitconv    %feature("implicitconv", "0")
 #define %clearimplicitconv %feature("implicitconv", "")


 /* ------------------------------------------------------------------------- */
 /*
    %extend_smart_pointer extend the smart pointer support.

    For example, if you have a smart pointer as:

      template <class Type> class RCPtr {
      public:
        ...
        RCPtr(Type *p);
    	Type * operator->() const;
    	...
      };

    you use the %extend_smart_pointer directive as:

      %extend_smart_pointer(RCPtr<A>);
      %template(RCPtr_A)  RCPtr<A>;

    then, if you have something like:

      RCPtr<A> make_ptr();
      int foo(A *);

    you can do the following:

      a = make_ptr();
      b = foo(a);

    ie, swig will accept a RCPtr<A> object where a 'A *' is
    expected.

    Also, when using vectors

      %extend_smart_pointer(RCPtr<A>);
      %template(RCPtr_A) RCPtr<A>;
      %template(vector_A) std::vector<RCPtr<A> >;

    you can type

      a = A();
      v = vector_A(2)
      v[0] = a

    ie, an 'A *' object is accepted, via implicit conversion,
    where a RCPtr<A> object is expected. Additionally

      x = v[0]

    returns (and sets 'x' as) a copy of v[0], making reference
    counting possible and consistent.
 */

 %define %extend_smart_pointer(Type...)
 %implicitconv Type;
 %apply const SWIGTYPE& SMARTPOINTER { const Type& };
 %apply SWIGTYPE SMARTPOINTER { Type };
 %enddef
	/* -------------------------------------------------------------------------
	* Special user directives
	* ------------------------------------------------------------------------- */

	/* ------------------------------------------------------------------------- */
	/*
	Implicit Conversion using the C++ constructor mechanism
	*/

	#define %implicitconv %feature("implicitconv")
	#define %noimplicitconv %feature("implicitconv", "0")
	#define %clearimplicitconv %feature("implicitconv", "")


	/* ------------------------------------------------------------------------- */
	/*
	%extend_smart_pointer extend the smart pointer support.

	For example, if you have a smart pointer as:

	template <class Type> class RCPtr {
	public:
	...
	RCPtr(Type *p);
	Type * operator->() const;
	...
	};

	you use the %extend_smart_pointer directive as:

	%extend_smart_pointer(RCPtr<A>);
	%template(RCPtr_A) RCPtr<A>;

	then, if you have something like:

	RCPtr<A> make_ptr();
	int foo(A *);

	you can do the following:

	a = make_ptr();
	b = foo(a);

	ie, swig will accept a RCPtr<A> object where a 'A *' is
	expected.

	Also, when using vectors

	%extend_smart_pointer(RCPtr<A>);
	%template(RCPtr_A) RCPtr<A>;
	%template(vector_A) std::vector<RCPtr<A> >;

	you can type

	a = A();
	v = vector_A(2)
	v[0] = a

	ie, an 'A *' object is accepted, via implicit conversion,
	where a RCPtr<A> object is expected. Additionally

	x = v[0]

	returns (and sets 'x' as) a copy of v[0], making reference
	counting possible and consistent.
	*/

	%define %extend_smart_pointer(Type...)
	%implicitconv Type;
	%apply const SWIGTYPE& SMARTPOINTER { const Type& };
	%apply SWIGTYPE SMARTPOINTER { Type };
	%enddef