Examples/test-suite/template_partial_specialization.i - third_party/swig - Git at Google

 %module template_partial_specialization

 %inline %{
 namespace One {
   template <typename T> struct OneParm                  { void a() {} };
   template <typename T> struct OneParm<T *>             { void b() {} };
   template <typename T> struct OneParm<T &>             { void c() {} };
   template <typename T> struct OneParm<T const &>       { void d() {} };
   template <typename T> struct OneParm<T * const &>     { void e() {} };

   template <>           struct OneParm<int>             { void f() {} };
   template <>           struct OneParm<int * const &>   { void g() {} };
   template <>           struct OneParm<int **>          { void h() {} };

   template <>           struct OneParm<float>           { void j() {} };
   template <>           struct OneParm<float *>         { void k() {} };
   template <>           struct OneParm<float **>        { void m() {} };
   template <>           struct OneParm<float ***>       { void n() {} };
 }
 %}

 // partial specializations
 %template(A) One::OneParm<double>;
 %template(B) One::OneParm<double *>;
 %template(C) One::OneParm<double &>;
 %template(D) One::OneParm<const double &>;
 %template(E) One::OneParm<double * const &>;

 // explicit specializations
 %template(F) One::OneParm<int>;
 %template(G) One::OneParm<int * const &>;
 %template(H) One::OneParm<int **>;

 // %template scope explicit specializations
 namespace One {
   %template(J) One::OneParm<float>;
   %template(K) ::One::OneParm<float *>;
 }
 %template(M) ::One::OneParm<float **>;
 namespace One {
   %template(N) OneParm<float ***>;
 }

 // %template scope partial specializations
 namespace One {
   %template(BB) One::OneParm<bool *>;
   %template(BBB) ::One::OneParm<char *>;
 }
 %template(BBBB) ::One::OneParm<short *>;
 namespace One {
   %template(BBBBB) OneParm<long *>;
 }

 // non-exact match
 %template(B1) One::OneParm<unsigned int **>;
 %template(B2) One::OneParm<unsigned int ***>;
 %template(B3) One::OneParm<const unsigned int *>;
 %template(B4) One::OneParm<const unsigned int **>;


 // Two parameter specialization tests
 %inline %{
 struct Concrete {};
 namespace Two {
   template <typename T1, typename T2> struct TwoParm                          { void a() {} };
   template <typename T1, typename T2> struct TwoParm<T1 *, T2 *>              { void b() {} };
   template <typename T1, typename T2> struct TwoParm<T1 *, const T2 *>        { void c() {} };
   template <typename T1, typename T2> struct TwoParm<const T1 *, const T2 *>  { void d() {} };
   template <typename T1>              struct TwoParm<T1 *, int *>             { void e() {} };
   template <typename T1>              struct TwoParm<T1, int>                 { void f() {} };
   template <>                         struct TwoParm<int *, const int *>      { void g() {} };
   template <>                         struct TwoParm<Concrete, Concrete *>    { void h() {} };
 }
 %}

 namespace Two {
   %template(A_) TwoParm<double, double>;
   %template(B_) TwoParm<double *, double *>;
   %template(C_) TwoParm<double *, const double *>;
   %template(D_) TwoParm<const int *, const int *>;
   %template(E_) TwoParm<int *, int *>;
   %template(F_) TwoParm<int *, int>;
   %template(G_) TwoParm<int *, const int *>;

   %template(C1_) TwoParm<Concrete *, const Concrete *>;
   %template(C2_) TwoParm<int *, const ::Concrete *>;
 }

 %template(C3_) Two::TwoParm<double *, const ::Concrete *>;
 %template(C4_) ::Two::TwoParm<void *, const ::Concrete *>;
 %template(B1_) ::Two::TwoParm<char *, ::Concrete *>;
 %template(E1_) Two::TwoParm<const int *, int *>;
 %template(E2_) Two::TwoParm<int **, int *>;
 %template(H_) Two::TwoParm< ::Concrete, ::Concrete * >;


 // Many template parameters
 %inline %{
 template <typename T1, typename T2, typename T3, typename T4, typename T5> struct FiveParm                               { void a() {} };
 template <typename T1>                                                     struct FiveParm<T1, int, int, double, short>  { void b() {} };
 %}

 %template(FiveParm1) FiveParm<bool, int, int, double, short>;

 %inline %{
 template <typename T, int N = 0, int M = 0> struct ThreeParm;
 template <typename T, int N, int M>         struct ThreeParm          { void a1() {} };
 template <typename T>                       struct ThreeParm<T, 0, 0> { void a2() {} };
 template <typename T, int N>                struct ThreeParm<T, N, N> { void a3() {} };
 %}

 %template(ThreeParmInt) ThreeParm<int, 0, 0>;

 #if 0
 // TODO fix:
 %inline %{
 //namespace S {
   template<typename T> struct X      { void a() {} };
   template<typename T> struct X<T *> { void b() {} };
 //  template<>           struct X<int *> { void c() {} };
 //}
 %}

 namespace AA {  // thinks X is in AA namespace
   %template(X2) X<int *>;
 };
 #endif

 #if 0
 namespace Space {
 }
 template<typename T> struct Vector {
 #ifdef SWIG
   %template() Space::VectorHelper<T>;
 #endif
   void gook(T i) {}
   void geeko(double d) {}
   void geeky(int d) {}
 };
 /*
 template<typename T> struct Vector<T *> {
 };
 */
 //}
 %}

 %template(VectorIntPtr) Space::Vector<int *>; // should fail as Vector is in global namespace
 // is this a regression - no fails in 1.3.40 too
 // Note problem is removed by removing empty Space namespace!!
 #endif
	%module template_partial_specialization

	%inline %{
	namespace One {
	template <typename T> struct OneParm { void a() {} };
	template <typename T> struct OneParm<T *> { void b() {} };
	template <typename T> struct OneParm<T &> { void c() {} };
	template <typename T> struct OneParm<T const &> { void d() {} };
	template <typename T> struct OneParm<T * const &> { void e() {} };

	template <> struct OneParm<int> { void f() {} };
	template <> struct OneParm<int * const &> { void g() {} };
	template <> struct OneParm<int **> { void h() {} };

	template <> struct OneParm<float> { void j() {} };
	template <> struct OneParm<float *> { void k() {} };
	template <> struct OneParm<float **> { void m() {} };
	template <> struct OneParm<float ***> { void n() {} };
	}
	%}

	// partial specializations
	%template(A) One::OneParm<double>;
	%template(B) One::OneParm<double *>;
	%template(C) One::OneParm<double &>;
	%template(D) One::OneParm<const double &>;
	%template(E) One::OneParm<double * const &>;

	// explicit specializations
	%template(F) One::OneParm<int>;
	%template(G) One::OneParm<int * const &>;
	%template(H) One::OneParm<int **>;

	// %template scope explicit specializations
	namespace One {
	%template(J) One::OneParm<float>;
	%template(K) ::One::OneParm<float *>;
	}
	%template(M) ::One::OneParm<float **>;
	namespace One {
	%template(N) OneParm<float ***>;
	}

	// %template scope partial specializations
	namespace One {
	%template(BB) One::OneParm<bool *>;
	%template(BBB) ::One::OneParm<char *>;
	}
	%template(BBBB) ::One::OneParm<short *>;
	namespace One {
	%template(BBBBB) OneParm<long *>;
	}

	// non-exact match
	%template(B1) One::OneParm<unsigned int **>;
	%template(B2) One::OneParm<unsigned int ***>;
	%template(B3) One::OneParm<const unsigned int *>;
	%template(B4) One::OneParm<const unsigned int **>;


	// Two parameter specialization tests
	%inline %{
	struct Concrete {};
	namespace Two {
	template <typename T1, typename T2> struct TwoParm { void a() {} };
	template <typename T1, typename T2> struct TwoParm<T1 , T2 > { void b() {} };
	template <typename T1, typename T2> struct TwoParm<T1 , const T2 > { void c() {} };
	template <typename T1, typename T2> struct TwoParm<const T1 , const T2 > { void d() {} };
	template <typename T1> struct TwoParm<T1 , int > { void e() {} };
	template <typename T1> struct TwoParm<T1, int> { void f() {} };
	template <> struct TwoParm<int , const int > { void g() {} };
	template <> struct TwoParm<Concrete, Concrete *> { void h() {} };
	}
	%}

	namespace Two {
	%template(A_) TwoParm<double, double>;
	%template(B_) TwoParm<double , double >;
	%template(C_) TwoParm<double , const double >;
	%template(D_) TwoParm<const int , const int >;
	%template(E_) TwoParm<int , int >;
	%template(F_) TwoParm<int *, int>;
	%template(G_) TwoParm<int , const int >;

	%template(C1_) TwoParm<Concrete , const Concrete >;
	%template(C2_) TwoParm<int , const ::Concrete >;
	}

	%template(C3_) Two::TwoParm<double , const ::Concrete >;
	%template(C4_) ::Two::TwoParm<void , const ::Concrete >;
	%template(B1_) ::Two::TwoParm<char , ::Concrete >;
	%template(E1_) Two::TwoParm<const int , int >;
	%template(E2_) Two::TwoParm<int *, int >;
	%template(H_) Two::TwoParm< ::Concrete, ::Concrete * >;


	// Many template parameters
	%inline %{
	template <typename T1, typename T2, typename T3, typename T4, typename T5> struct FiveParm { void a() {} };
	template <typename T1> struct FiveParm<T1, int, int, double, short> { void b() {} };
	%}

	%template(FiveParm1) FiveParm<bool, int, int, double, short>;

	%inline %{
	template <typename T, int N = 0, int M = 0> struct ThreeParm;
	template <typename T, int N, int M> struct ThreeParm { void a1() {} };
	template <typename T> struct ThreeParm<T, 0, 0> { void a2() {} };
	template <typename T, int N> struct ThreeParm<T, N, N> { void a3() {} };
	%}

	%template(ThreeParmInt) ThreeParm<int, 0, 0>;

	#if 0
	// TODO fix:
	%inline %{
	//namespace S {
	template<typename T> struct X { void a() {} };
	template<typename T> struct X<T *> { void b() {} };
	// template<> struct X<int *> { void c() {} };
	//}
	%}

	namespace AA { // thinks X is in AA namespace
	%template(X2) X<int *>;
	};
	#endif

	#if 0
	namespace Space {
	}
	template<typename T> struct Vector {
	#ifdef SWIG
	%template() Space::VectorHelper<T>;
	#endif
	void gook(T i) {}
	void geeko(double d) {}
	void geeky(int d) {}
	};
	/*
	template<typename T> struct Vector<T *> {
	};
	*/
	//}
	%}

	%template(VectorIntPtr) Space::Vector<int *>; // should fail as Vector is in global namespace
	// is this a regression - no fails in 1.3.40 too
	// Note problem is removed by removing empty Space namespace!!
	#endif