Lib/typemaps/attribute.swg - third_party/swig - Git at Google

 /* -----------------------------------------------------------------------------
  * attribute.swg
  *
  * Attribute implementation
  * ----------------------------------------------------------------------------- */

 /*
   The following macros convert a pair of set/get methods
   into a "native" attribute.

   Use %attribute when you have a pair of get/set methods to a primitive type
   like in:

       %attribute(A, int, a, get_a, set_a);

       struct A
       {
         int get_a() const;
         void set_a(int aa);
       };

   If you don't provide a 'set' method, a 'read-only' attribute
   is generated, ie, like in:

       %attribute(A, int, c, get_c);

   Use %attributeref when you have const/non-const reference access methods
   for primitive types or class/structs, like in:

       %attributeref(A, int, b);

       struct A
       {
         const int& b() const;
         int& b();
       };

       %attributeref(B, int, c);

       struct B
       {
         int& c();
       };

   You can also use

       %attributeref(Class, AttributeType, AttributeName, AccessorMethod)

   if the internal C++ reference methods have a different name from the
   attribute you want, so

       %attributeref(B, int, d, c);

   is the same as the last example, but instead of the attribute 'c' being
   called 'c', it is called 'd'.

   Now you can use the attributes like so:

       x = A()
       x.a = 3        # calls A::set_a
       print x.a      # calls A::get_a

       x.b = 3        # calls A::b()
       print x.b      # calls A::b() const

   Use %attribute2 instead of %attribute to indicate that reference-pointer
   translation is required. You use %attribute2 instead of %attribute in
   cases like this:

   %attribute2(MyClass, MyFoo, Foo, GetFoo, SetFoo);
   %inline %{
     struct MyFoo {
       int x;
     };
     class MyClass {
       MyFoo foo;
     public:
       MyFoo& GetFoo() { return foo; }
       void SetFoo(const MyFoo& other) { foo = other; }
     };
   %}

   Here, the data type of the property is a wrapped type (MyFoo) and on the
   C++ side it is passed by reference. The problem is that the SWIG wrapper will
   pass around a pointer (MyFoo *) which is not compatible with the reference
   type of the accessors (MyFoo &). Therefore, if you use %attribute, you'll get
   an error from your C/C++ compiler. %attribute2 translates between a pointer
   and a reference to eliminate the error. In case you're confused, let's make it
   simple: just use %attribute at first, but if the C/C++ compiler gives an error
   while compiling the wrapper, try %attribute2 instead.

   NOTE: remember that if the type contains commas, such as 'std::pair<int,int>',
   you need to use the macro like:

   %attributeref(A, %arg(std::pair<int,int>), pval);

   where %arg() 'normalizes' the type to be understood as a single
   argument, otherwise the macro will get confused by the comma.

   The %attributeval is the same as %attribute, but should be used when the type
   is a class/struct (ie a non-primitive type) and when the get and set methods
   return/pass by value. The following is very similar to the above example, but
   note that the access is by value rather than reference.

     %attributeval(MyClassVal, MyFoo, ReadWriteFoo, GetFoo, SetFoo);
     %attributeval(MyClassVal, MyFoo, ReadOnlyFoo, GetFoo);
     %inline %{
       class MyClassVal {
 	MyFoo foo;
       public:
 	MyFoo GetFoo() { return foo; }
 	void SetFoo(MyFoo other) { foo = other; }
       };
     %}

   The %attributestring is the same as %attributeval, but should be used for string
   class types, which are unusual as they are a class on the C++ side, but normally an
   immutable/primitive type in the target language. Example usage for std::string:

     %include <std_string.i>
     %attributestring(MyStringyClass, std::string, ReadWriteString, GetString, SetString);
     %attributestring(MyStringyClass, std::string, ReadOnlyString, GetString);
     %inline %{
       class MyStringyClass {
 	std::string str;
       public:
 	MyStringyClass(const std::string &val) : str(val) {}
 	std::string GetString() { return str; }
 	void SetString(std::string other) { str = other; }
       };
     %}

   The %attributestring also works for class types that have %naturalvar turned
   on and so is also useful for shared_ptr which has %naturalvar turned on in %shared_ptr.

 */

 //
 // Define SWIG_ATTRIBUTE_TEMPLATE if you want to use templates instead of macros for the C++ get and set wrapper methods
 // Does not always generate compilable code, use at your peril!
 //
 //#define SWIG_ATTRIBUTE_TEMPLATE

 %define %attribute_custom(Class, AttributeType, AttributeName, GetMethod, SetMethod, GetMethodCall, SetMethodCall)
   %ignore Class::GetMethod();
   %ignore Class::GetMethod() const;
   #if #SetMethod != #AttributeName
     %ignore Class::SetMethod;
   #endif
   %extend Class {
     AttributeType AttributeName;
   }
 #if defined(__cplusplus) && defined(SWIG_ATTRIBUTE_TEMPLATE)
   %{
     template < class C > inline AttributeType %mangle(Class) ##_## AttributeName ## _get(const C* self_) {
       return GetMethodCall;
     }
     template < class C > inline AttributeType %mangle(Class) ##_## AttributeName ## _get(C* self_) {
       return GetMethodCall;
     }
     template < class C > inline void %mangle(Class) ##_## AttributeName ## _set(C* self_, AttributeType val_) {
       SetMethodCall;
     }
   %}
 #else
   %{
     #define %mangle(Class) ##_## AttributeName ## _get(self_) GetMethodCall
     #define %mangle(Class) ##_## AttributeName ## _set(self_, val_) SetMethodCall
   %}
 #endif
 %enddef

 %define %attribute_readonly(Class, AttributeType, AttributeName, GetMethod, GetMethodCall)
   %ignore Class::GetMethod();
   %ignore Class::GetMethod() const;
   %immutable Class::AttributeName;
   %extend Class {
     AttributeType AttributeName;
   }
 #if defined(__cplusplus) && defined(SWIG_ATTRIBUTE_TEMPLATE)
   %{
     template < class C > inline AttributeType %mangle(Class) ##_## AttributeName ## _get(const C* self_) {
       return GetMethodCall;
     }
     template < class C > inline AttributeType %mangle(Class) ##_## AttributeName ## _get(C* self_) {
       return GetMethodCall;
     }
   %}
 #else
   %{
     #define %mangle(Class) ##_## AttributeName ## _get(self_) GetMethodCall
   %}
 #endif
 %enddef


 // User macros

 %define %attribute(Class, AttributeType, AttributeName, GetMethod, SetMethod...)
   #if #SetMethod != ""
     %attribute_custom(%arg(Class), %arg(AttributeType), AttributeName, GetMethod, SetMethod, self_->GetMethod(), self_->SetMethod(val_))
   #else
     %attribute_readonly(%arg(Class), %arg(AttributeType), AttributeName, GetMethod, self_->GetMethod())
   #endif
 %enddef

 %define %attribute2(Class, AttributeType, AttributeName, GetMethod, SetMethod...)
   #if #SetMethod != ""
     %attribute_custom(%arg(Class), %arg(AttributeType), AttributeName, GetMethod, SetMethod, &self_->GetMethod(), self_->SetMethod(*val_))
   #else
     %attribute_readonly(%arg(Class), %arg(AttributeType), AttributeName, GetMethod, &self_->GetMethod())
   #endif
 %enddef

 %define %attributeref(Class, AttributeType, AttributeName, AccessorMethod...)
   #if #AccessorMethod != ""
     %attribute_custom(%arg(Class), %arg(AttributeType), AttributeName, AccessorMethod, AccessorMethod, self_->AccessorMethod(), self_->AccessorMethod() = val_)
   #else
     %attribute_custom(%arg(Class), %arg(AttributeType), AttributeName, AttributeName, AttributeName, self_->AttributeName(), self_->AttributeName() = val_)
   #endif
 %enddef

 %define %attribute2ref(Class, AttributeType, AttributeName, AccessorMethod...)
   #if #AccessorMethod != ""
     %attribute_custom(%arg(Class), %arg(AttributeType), AttributeName, AccessorMethod, AccessorMethod, &self_->AccessorMethod(), self_->AccessorMethod() = *val_)
   #else
     %attribute_custom(%arg(Class), %arg(AttributeType), AttributeName, AttributeName, AttributeName, &self_->AttributeName(), self_->AttributeName() = *val_)
   #endif
 %enddef

 // deprecated (same as %attributeref, but there is an argument order inconsistency)
 %define %attribute_ref(Class, AttributeType, AccessorMethod, AttributeName...)
   #if #AttributeName != ""
     %attribute_custom(%arg(Class), %arg(AttributeType), AttributeName, AccessorMethod, AccessorMethod, self_->AccessorMethod(), self_->AccessorMethod() = val_)
   #else
     %attribute_custom(%arg(Class), %arg(AttributeType), AccessorMethod, AccessorMethod, AccessorMethod, self_->AccessorMethod(), self_->AccessorMethod() = val_)
   #endif
 %enddef


 %define %attributeval(Class, AttributeType, AttributeName, GetMethod, SetMethod...)
   %{
     #define %mangle(Class) ##_## AttributeName ## _get(self_) new AttributeType(self_->GetMethod())
   %}
   #if #SetMethod != ""
     %{
       #define %mangle(Class) ##_## AttributeName ## _set(self_, val_) self_->SetMethod(*val_)
     %}
     #if #SetMethod != #AttributeName
       %ignore Class::SetMethod;
     #endif
   #else
     %immutable Class::AttributeName;
   #endif
   %ignore Class::GetMethod();
   %ignore Class::GetMethod() const;
   %newobject Class::AttributeName;
   %extend Class {
     AttributeType AttributeName;
   }
 %enddef


 %define %attributestring(Class, AttributeType, AttributeName, GetMethod, SetMethod...)
   %{
     #define %mangle(Class) ##_## AttributeName ## _get(self_) *new AttributeType(self_->GetMethod())
   %}
   #if #SetMethod != ""
     %{
       #define %mangle(Class) ##_## AttributeName ## _set(self_, val_) self_->SetMethod(val_)
     %}
     #if #SetMethod != #AttributeName
       %ignore Class::SetMethod;
     #endif
   #else
     %immutable Class::AttributeName;
   #endif
   %ignore Class::GetMethod();
   %ignore Class::GetMethod() const;
   %newobject Class::AttributeName;
   %typemap(newfree) const AttributeType &AttributeName "delete $1;"
   %extend Class {
     AttributeType AttributeName;
   }
 %enddef
	/* -----------------------------------------------------------------------------
	* attribute.swg
	*
	* Attribute implementation
	* ----------------------------------------------------------------------------- */

	/*
	The following macros convert a pair of set/get methods
	into a "native" attribute.

	Use %attribute when you have a pair of get/set methods to a primitive type
	like in:

	%attribute(A, int, a, get_a, set_a);

	struct A
	{
	int get_a() const;
	void set_a(int aa);
	};

	If you don't provide a 'set' method, a 'read-only' attribute
	is generated, ie, like in:

	%attribute(A, int, c, get_c);

	Use %attributeref when you have const/non-const reference access methods
	for primitive types or class/structs, like in:

	%attributeref(A, int, b);

	struct A
	{
	const int& b() const;
	int& b();
	};

	%attributeref(B, int, c);

	struct B
	{
	int& c();
	};

	You can also use

	%attributeref(Class, AttributeType, AttributeName, AccessorMethod)

	if the internal C++ reference methods have a different name from the
	attribute you want, so

	%attributeref(B, int, d, c);

	is the same as the last example, but instead of the attribute 'c' being
	called 'c', it is called 'd'.

	Now you can use the attributes like so:

	x = A()
	x.a = 3 # calls A::set_a
	print x.a # calls A::get_a

	x.b = 3 # calls A::b()
	print x.b # calls A::b() const

	Use %attribute2 instead of %attribute to indicate that reference-pointer
	translation is required. You use %attribute2 instead of %attribute in
	cases like this:

	%attribute2(MyClass, MyFoo, Foo, GetFoo, SetFoo);
	%inline %{
	struct MyFoo {
	int x;
	};
	class MyClass {
	MyFoo foo;
	public:
	MyFoo& GetFoo() { return foo; }
	void SetFoo(const MyFoo& other) { foo = other; }
	};
	%}

	Here, the data type of the property is a wrapped type (MyFoo) and on the
	C++ side it is passed by reference. The problem is that the SWIG wrapper will
	pass around a pointer (MyFoo *) which is not compatible with the reference
	type of the accessors (MyFoo &). Therefore, if you use %attribute, you'll get
	an error from your C/C++ compiler. %attribute2 translates between a pointer
	and a reference to eliminate the error. In case you're confused, let's make it
	simple: just use %attribute at first, but if the C/C++ compiler gives an error
	while compiling the wrapper, try %attribute2 instead.

	NOTE: remember that if the type contains commas, such as 'std::pair<int,int>',
	you need to use the macro like:

	%attributeref(A, %arg(std::pair<int,int>), pval);

	where %arg() 'normalizes' the type to be understood as a single
	argument, otherwise the macro will get confused by the comma.

	The %attributeval is the same as %attribute, but should be used when the type
	is a class/struct (ie a non-primitive type) and when the get and set methods
	return/pass by value. The following is very similar to the above example, but
	note that the access is by value rather than reference.

	%attributeval(MyClassVal, MyFoo, ReadWriteFoo, GetFoo, SetFoo);
	%attributeval(MyClassVal, MyFoo, ReadOnlyFoo, GetFoo);
	%inline %{
	class MyClassVal {
	MyFoo foo;
	public:
	MyFoo GetFoo() { return foo; }
	void SetFoo(MyFoo other) { foo = other; }
	};
	%}

	The %attributestring is the same as %attributeval, but should be used for string
	class types, which are unusual as they are a class on the C++ side, but normally an
	immutable/primitive type in the target language. Example usage for std::string:

	%include <std_string.i>
	%attributestring(MyStringyClass, std::string, ReadWriteString, GetString, SetString);
	%attributestring(MyStringyClass, std::string, ReadOnlyString, GetString);
	%inline %{
	class MyStringyClass {
	std::string str;
	public:
	MyStringyClass(const std::string &val) : str(val) {}
	std::string GetString() { return str; }
	void SetString(std::string other) { str = other; }
	};
	%}

	The %attributestring also works for class types that have %naturalvar turned
	on and so is also useful for shared_ptr which has %naturalvar turned on in %shared_ptr.

	*/

	//
	// Define SWIG_ATTRIBUTE_TEMPLATE if you want to use templates instead of macros for the C++ get and set wrapper methods
	// Does not always generate compilable code, use at your peril!
	//
	//#define SWIG_ATTRIBUTE_TEMPLATE

	%define %attribute_custom(Class, AttributeType, AttributeName, GetMethod, SetMethod, GetMethodCall, SetMethodCall)
	%ignore Class::GetMethod();
	%ignore Class::GetMethod() const;
	#if #SetMethod != #AttributeName
	%ignore Class::SetMethod;
	#endif
	%extend Class {
	AttributeType AttributeName;
	}
	#if defined(__cplusplus) && defined(SWIG_ATTRIBUTE_TEMPLATE)
	%{
	template < class C > inline AttributeType %mangle(Class) ##_## AttributeName ## _get(const C* self_) {
	return GetMethodCall;
	}
	template < class C > inline AttributeType %mangle(Class) ##_## AttributeName ## _get(C* self_) {
	return GetMethodCall;
	}
	template < class C > inline void %mangle(Class) ##_## AttributeName ## _set(C* self_, AttributeType val_) {
	SetMethodCall;
	}
	%}
	#else
	%{
	#define %mangle(Class) ##_## AttributeName ## _get(self_) GetMethodCall
	#define %mangle(Class) ##_## AttributeName ## _set(self_, val_) SetMethodCall
	%}
	#endif
	%enddef

	%define %attribute_readonly(Class, AttributeType, AttributeName, GetMethod, GetMethodCall)
	%ignore Class::GetMethod();
	%ignore Class::GetMethod() const;
	%immutable Class::AttributeName;
	%extend Class {
	AttributeType AttributeName;
	}
	#if defined(__cplusplus) && defined(SWIG_ATTRIBUTE_TEMPLATE)
	%{
	template < class C > inline AttributeType %mangle(Class) ##_## AttributeName ## _get(const C* self_) {
	return GetMethodCall;
	}
	template < class C > inline AttributeType %mangle(Class) ##_## AttributeName ## _get(C* self_) {
	return GetMethodCall;
	}
	%}
	#else
	%{
	#define %mangle(Class) ##_## AttributeName ## _get(self_) GetMethodCall
	%}
	#endif
	%enddef


	// User macros

	%define %attribute(Class, AttributeType, AttributeName, GetMethod, SetMethod...)
	#if #SetMethod != ""
	%attribute_custom(%arg(Class), %arg(AttributeType), AttributeName, GetMethod, SetMethod, self_->GetMethod(), self_->SetMethod(val_))
	#else
	%attribute_readonly(%arg(Class), %arg(AttributeType), AttributeName, GetMethod, self_->GetMethod())
	#endif
	%enddef

	%define %attribute2(Class, AttributeType, AttributeName, GetMethod, SetMethod...)
	#if #SetMethod != ""
	%attribute_custom(%arg(Class), %arg(AttributeType), AttributeName, GetMethod, SetMethod, &self_->GetMethod(), self_->SetMethod(*val_))
	#else
	%attribute_readonly(%arg(Class), %arg(AttributeType), AttributeName, GetMethod, &self_->GetMethod())
	#endif
	%enddef

	%define %attributeref(Class, AttributeType, AttributeName, AccessorMethod...)
	#if #AccessorMethod != ""
	%attribute_custom(%arg(Class), %arg(AttributeType), AttributeName, AccessorMethod, AccessorMethod, self_->AccessorMethod(), self_->AccessorMethod() = val_)
	#else
	%attribute_custom(%arg(Class), %arg(AttributeType), AttributeName, AttributeName, AttributeName, self_->AttributeName(), self_->AttributeName() = val_)
	#endif
	%enddef

	%define %attribute2ref(Class, AttributeType, AttributeName, AccessorMethod...)
	#if #AccessorMethod != ""
	%attribute_custom(%arg(Class), %arg(AttributeType), AttributeName, AccessorMethod, AccessorMethod, &self_->AccessorMethod(), self_->AccessorMethod() = *val_)
	#else
	%attribute_custom(%arg(Class), %arg(AttributeType), AttributeName, AttributeName, AttributeName, &self_->AttributeName(), self_->AttributeName() = *val_)
	#endif
	%enddef

	// deprecated (same as %attributeref, but there is an argument order inconsistency)
	%define %attribute_ref(Class, AttributeType, AccessorMethod, AttributeName...)
	#if #AttributeName != ""
	%attribute_custom(%arg(Class), %arg(AttributeType), AttributeName, AccessorMethod, AccessorMethod, self_->AccessorMethod(), self_->AccessorMethod() = val_)
	#else
	%attribute_custom(%arg(Class), %arg(AttributeType), AccessorMethod, AccessorMethod, AccessorMethod, self_->AccessorMethod(), self_->AccessorMethod() = val_)
	#endif
	%enddef


	%define %attributeval(Class, AttributeType, AttributeName, GetMethod, SetMethod...)
	%{
	#define %mangle(Class) ##_## AttributeName ## _get(self_) new AttributeType(self_->GetMethod())
	%}
	#if #SetMethod != ""
	%{
	#define %mangle(Class) ##_## AttributeName ## _set(self_, val_) self_->SetMethod(*val_)
	%}
	#if #SetMethod != #AttributeName
	%ignore Class::SetMethod;
	#endif
	#else
	%immutable Class::AttributeName;
	#endif
	%ignore Class::GetMethod();
	%ignore Class::GetMethod() const;
	%newobject Class::AttributeName;
	%extend Class {
	AttributeType AttributeName;
	}
	%enddef


	%define %attributestring(Class, AttributeType, AttributeName, GetMethod, SetMethod...)
	%{
	#define %mangle(Class) ##_## AttributeName ## _get(self_) *new AttributeType(self_->GetMethod())
	%}
	#if #SetMethod != ""
	%{
	#define %mangle(Class) ##_## AttributeName ## _set(self_, val_) self_->SetMethod(val_)
	%}
	#if #SetMethod != #AttributeName
	%ignore Class::SetMethod;
	#endif
	#else
	%immutable Class::AttributeName;
	#endif
	%ignore Class::GetMethod();
	%ignore Class::GetMethod() const;
	%newobject Class::AttributeName;
	%typemap(newfree) const AttributeType &AttributeName "delete $1;"
	%extend Class {
	AttributeType AttributeName;
	}
	%enddef