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|
%module namespace_class
%warnfilter(SWIGWARN_PARSE_NAMED_NESTED_CLASS) Ala::Ola;
#ifdef SWIGD
%warnfilter(SWIGWARN_IGNORE_OPERATOR_LT);
#endif
%inline %{
template<class T> void foobar(T t) {}
namespace test {
template<class T> void barfoo(T t) {}
}
%}
%template(FooBarInt) ::foobar<int>;
%template(BarFooInt) test::barfoo<int>;
%inline %{
template <class C>
struct Bar_T
{
};
namespace test {
enum Hello {
Hi
};
struct Test;
struct Bar {
Hello foo(Hello h) {
return h;
}
};
namespace hola {
struct Bor;
struct Foo;
struct Foobar;
template <class T> struct BarT {
};
template <class T> class FooT;
}
template <class T>
class hola::FooT {
public:
Hello foo(Hello h) {
return h;
}
T bar(T h) {
return h;
}
};
namespace hola {
template <> class FooT<double>;
template <> class FooT<int>;
}
template <>
class hola::FooT<double> {
public:
double moo(double h) {
return h;
}
};
int a;
struct hola::Foo : Bar {
Hello bar(Hello h) {
return h;
}
};
}
struct test::Test {
Hello foo(Hello h) {
return h;
}
};
struct test::hola::Bor {
Hello foo(Hello h) {
return h;
}
};
namespace test {
struct hola::Foobar : Bar {
Hello bar(Hello h) {
return h;
}
};
}
template <>
class test::hola::FooT<int> {
public:
int quack(int h) {
return h;
}
};
%}
namespace test
{
namespace hola {
%template(FooT_i) FooT<int>;
}
%template(FooT_H) hola::FooT<Hello>;
}
%template(FooT_d) ::test::hola::FooT<double>;
%template(BarT_H) test::hola::BarT<test::Hello>;
%inline %{
namespace hi {
namespace hello {
template <class T> struct PooT;
}
namespace hello {
template <class T> struct PooT
{
};
}
}
%}
%template(Poo_i) hi::hello::PooT<int>;
%inline %{
template <class T> struct BooT {
};
namespace test {
typedef ::BooT<Hello> BooT_H;
}
%}
namespace test {
%template(BooT_H) ::BooT<Hello>;
}
%template(BooT_i) ::BooT<int>;
%inline %{
namespace jafar {
namespace jmath {
class EulerT3D {
public:
static void hello(){}
template<class VecFrame, class Vec, class VecRes>
static void toFrame(const VecFrame& frame_, const Vec&v_,const VecRes& vRes){}
template<class T>
void operator ()(T& x){}
template<class T>
void operator < (T& x){}
template<class T>
operator Bar_T<T> () {}
};
}
}
%}
%template(toFrame) jafar::jmath::EulerT3D::toFrame<int,int,int>;
%template(callint) jafar::jmath::EulerT3D::operator()<int>;
%template(lessint) jafar::jmath::EulerT3D::operator < <int>;
%template(callfooi) jafar::jmath::EulerT3D::operator() <test::hola::FooT<int> >;
%template(lessfooi) jafar::jmath::EulerT3D::operator < < test::hola::FooT<int> >;
%inline %{
namespace {
/* the unnamed namespace is 'private', so, the following
declarations shouldn't be wrapped */
class Private1
{
};
}
namespace a
{
namespace
{
class Private2
{
};
}
}
%}
// %copyctor doesn't work with nested class workaround
%nocopyctor;
%inline %{
class Ala {
public :
Ala() {}
class Ola {
public:
Ola() {}
void eek() {}
};
template <class T>
static void hi()
{
}
};
%}
%rename(Ala__Ola) Ala::Ola;
class Ala::Ola {
public:
Ola() {}
void eek() {}
};
%template(hi) Ala::hi<int>;
%extend jafar::jmath::EulerT3D
{
}
%rename(FLACFile) TagLib::FLAC::File;
%inline {
namespace TagLib
{
class File {
public:
File() {}
};
class AudioProperties {
};
class AudioPropertiesFile {
public:
typedef TagLib::File File;
};
namespace FLAC
{
class File;
class Properties : public AudioProperties {
public:
Properties(File *) {}
};
class PropertiesFile : public AudioPropertiesFile {
public:
PropertiesFile(File * = 0) {}
};
namespace bar {
class PropertiesFree : public AudioProperties {
public:
PropertiesFree(File *) {}
};
}
class FooFilePrivate : private PropertiesFile {
public:
FooFilePrivate(File *) {}
};
class FooFile : public PropertiesFile {
public:
FooFile(File *) {}
};
class File {
public:
File() {}
};
}
}
}
|
