mirror of
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246 lines
6.1 KiB
Plaintext
246 lines
6.1 KiB
Plaintext
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/* -------------------------------------------------------------------------
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* Special user directives
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* ------------------------------------------------------------------------- */
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/* ------------------------------------------------------------------------- */
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/* shadow code */
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#define %shadow %insert("shadow")
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#define %pythoncode %insert("python")
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/* ------------------------------------------------------------------------- */
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/*
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Use the "nondynamic" feature to make a wrapped class behave as a "nondynamic"
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one, ie, a python class that doesn't dynamically add new attributes.
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For example, for the class
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%pythonnondynamic A;
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struct A
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{
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int a;
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int b;
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};
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you will get:
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aa = A()
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aa.a = 1 # Ok
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aa.b = 1 # Ok
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aa.c = 3 # error
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Since nondynamic is a feature, if you use it like
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%pythonnondynamic;
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it will make all the wrapped classes nondynamic ones.
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The implementation is based on this recipe:
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http://aspn.activestate.com/ASPN/Cookbook/Python/Recipe/252158
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and works for modern (-modern) and plain python. We do not use __slots__,
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so, it works with old python versions.
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*/
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#define %pythonnondynamic %feature("python:nondynamic", "1")
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#define %nopythonnondynamic %feature("python:nondynamic", "0")
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#define %clearpythonnondynamic %feature("python:nondynamic", "")
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#define %pythondynamic %nopythonnondynamic
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/* ------------------------------------------------------------------------- */
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/*
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Use %pythonmaybecall to flag a method like __add__ or __radd__. These
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don't produce an error when called, they just return NotImplemented.
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These methods "may be called" if needed.
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*/
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#define %pythonmaybecall %feature("python:maybecall", "1")
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#define %nopythonmaybecall %feature("python:maybecall", "0")
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#define %clearpythonmaybecall %feature("python:maybecall", "")
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/* ------------------------------------------------------------------------- */
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/*
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The %pythoncallback feature produce a more natural callback wrapper
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than the %callback mechanism, ie, it uses the original name for
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the callback and callable objects.
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Just use it as
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%pythoncallback(1) foo;
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int foo(int a);
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%pythoncallback(1) A::foo;
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struct A {
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static int foo(int a);
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};
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int bar(int, int (*pf)(int));
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then, you can use it as:
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a = foo(1)
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b = bar(2, foo)
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c = A.foo(3)
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d = bar(4, A.foo)
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If you use it with a member method
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%pythoncallback(1) A::foom;
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struct A {
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int foom(int a);
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};
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then you can use it as
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r = a.foom(3) # eval the method
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mptr = A.foom_cb_ptr # returns the callback pointer
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where the '_cb_ptr' suffix is added for the callback pointer.
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*/
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#define %pythoncallback %feature("python:callback")
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#define %nopythoncallback %feature("python:callback","0")
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#define %clearpythoncallback %feature("python:callback","")
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/* ------------------------------------------------------------------------- */
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/*
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Support for the old %callback directive name
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*/
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#ifdef %callback
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#undef %callback
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#endif
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#ifdef %nocallback
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#undef %nocallback
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#endif
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#ifdef %clearcallback
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#undef %clearcallback
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#endif
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#define %callback(x) %feature("python:callback",`x`)
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#define %nocallback %nopythoncallback
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#define %clearcallback %clearpythoncallback
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/* ------------------------------------------------------------------------- */
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/*
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Thread support - Advance control
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*/
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#define %nothread %feature("nothread")
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#define %thread %feature("nothread","0")
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#define %clearnothread %feature("nothread","")
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#define %nothreadblock %feature("nothreadblock")
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#define %threadblock %feature("nothreadblock","0")
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#define %clearnothreadblock %feature("nothreadblock","")
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#define %nothreadallow %feature("nothreadallow")
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#define %threadallow %feature("nothreadallow","0")
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#define %clearnothreadallow %feature("nothreadallow","")
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/* ------------------------------------------------------------------------- */
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/*
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Implicit Conversion using the C++ constructor mechanism
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*/
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#define %implicitconv %feature("implicitconv")
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#define %noimplicitconv %feature("implicitconv", "0")
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#define %clearimplicitconv %feature("implicitconv", "")
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/* ------------------------------------------------------------------------- */
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/*
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Enable keywords paramaters
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*/
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#define %kwargs %feature("kwargs")
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#define %nokwargs %feature("kwargs", "0")
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#define %clearkwargs %feature("kwargs", "")
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/* ------------------------------------------------------------------------- */
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/*
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Add python code to the proxy/shadow code
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%pythonprepend - Add code before the C++ function is called
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%pythonappend - Add code after the C++ function is called
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*/
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#define %pythonprepend %feature("pythonprepend")
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#define %clearpythonprepend %feature("pythonprepend","")
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#define %pythonappend %feature("pythonappend")
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#define %clearpythonappend %feature("pythonappend","")
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/* ------------------------------------------------------------------------- */
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/*
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%extend_smart_pointer extend the smart pointer support.
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For example, if you have a smart pointer as:
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template <class Type> class RCPtr {
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public:
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...
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RCPtr(Type *p);
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Type * operator->() const;
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...
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};
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you use the %extend_smart_pointer directive as:
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%extend_smart_pointer(RCPtr<A>);
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%template(RCPtr_A) RCPtr<A>;
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then, if you have something like:
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RCPtr<A> make_ptr();
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int foo(A *);
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you can do the following:
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a = make_ptr();
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b = foo(a);
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ie, swig will accept a RCPtr<A> object where a 'A *' is
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expected.
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Also, when using vectors
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%extend_smart_pointer(RCPtr<A>);
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%template(RCPtr_A) RCPtr<A>;
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%template(vector_A) std::vector<RCPtr<A> >;
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you can type
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a = A();
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v = vector_A(2)
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v[0] = a
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ie, an 'A *' object is accepted, via implicit conversion,
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where a RCPtr<A> object is expected. Additionally
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x = v[0]
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returns (and sets 'x' as) a copy of v[0], making reference
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counting possible and consistent.
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*/
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%define %extend_smart_pointer(Type...)
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%implicitconv Type;
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%apply const SWIGTYPE& SMARTPOINTER { const Type& };
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%apply SWIGTYPE SMARTPOINTER { Type };
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%enddef
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