// Tests classes passed by value, pointer and reference // Note: C# module has a large runtime test %warnfilter(SWIGWARN_TYPEMAP_THREAD_UNSAFE,SWIGWARN_TYPEMAP_DIRECTOROUT_PTR) Base::Ref; %warnfilter(SWIGWARN_TYPEMAP_THREAD_UNSAFE,SWIGWARN_TYPEMAP_DIRECTOROUT_PTR) Base::Ptr; %module(directors="1") director_classes %feature("director") Base; %feature("director") Derived; %include "std_string.i" %{ #if defined(__SUNPRO_CC) #pragma error_messages (off, hidevf) #endif %} %inline %{ #include #include // Use for debugging bool PrintDebug = false; struct DoubleHolder { DoubleHolder(double v = 0.0) : val(v) {} double val; }; class Base { protected: double m_dd; public: Base(double dd) : m_dd(dd) {} virtual ~Base() {} virtual DoubleHolder Val(DoubleHolder x) { if (PrintDebug) std::cout << "Base - Val(" << x.val << ")" << std::endl; return x; } virtual DoubleHolder& Ref(DoubleHolder& x) { if (PrintDebug) std::cout << "Base - Ref(" << x.val << ")" << std::endl; return x; } virtual DoubleHolder* Ptr(DoubleHolder* x) { if (PrintDebug) std::cout << "Base - Ptr(" << x->val << ")" << std::endl; return x; } virtual std::string FullyOverloaded(int x) { if (PrintDebug) std::cout << "Base - FullyOverloaded(int " << x << ")" << std::endl; return "Base::FullyOverloaded(int)"; } virtual std::string FullyOverloaded(bool x) { if (PrintDebug) std::cout << "Base - FullyOverloaded(bool " << x << ")" << std::endl; return "Base::FullyOverloaded(bool)"; } virtual std::string SemiOverloaded(int x) { if (PrintDebug) std::cout << "Base - SemiOverloaded(int " << x << ")" << std::endl; return "Base::SemiOverloaded(int)"; } virtual std::string SemiOverloaded(bool x) { if (PrintDebug) std::cout << "Base - SemiOverloaded(bool " << x << ")" << std::endl; return "Base::SemiOverloaded(bool)"; } virtual std::string DefaultParms(int x, double y = 1.1) { if (PrintDebug) std::cout << "Base - DefaultParms(" << x << ", " << y << ")" << std::endl; std::string ret("Base::DefaultParms(int"); if (y!=1.1) ret = ret + std::string(", double"); ret = ret + std::string(")"); return ret; } }; class Derived : public Base { public: Derived(double dd) : Base(dd) {} virtual ~Derived() {} virtual DoubleHolder Val(DoubleHolder x) { if (PrintDebug) std::cout << "Derived - Val(" << x.val << ")" << std::endl; return x; } virtual DoubleHolder& Ref(DoubleHolder& x) { if (PrintDebug) std::cout << "Derived - Ref(" << x.val << ")" << std::endl; return x; } virtual DoubleHolder* Ptr(DoubleHolder* x) { if (PrintDebug) std::cout << "Derived - Ptr(" << x->val << ")" << std::endl; return x; } virtual std::string FullyOverloaded(int x) { if (PrintDebug) std::cout << "Derived - FullyOverloaded(int " << x << ")" << std::endl; return "Derived::FullyOverloaded(int)"; } virtual std::string FullyOverloaded(bool x) { if (PrintDebug) std::cout << "Derived - FullyOverloaded(bool " << x << ")" << std::endl; return "Derived::FullyOverloaded(bool)"; } virtual std::string SemiOverloaded(int x) { if (PrintDebug) std::cout << "Derived - SemiOverloaded(int " << x << ")" << std::endl; return "Derived::SemiOverloaded(int)"; } // No SemiOverloaded(bool x) virtual std::string DefaultParms(int x, double y = 1.1) { if (PrintDebug) std::cout << "Derived - DefaultParms(" << x << ", " << y << ")" << std::endl; std::string ret("Derived::DefaultParms(int"); if (y!=1.1) ret = ret + std::string(", double"); ret = ret + std::string(")"); return ret; } }; class Caller { private: Base *m_base; void delBase() { delete m_base; m_base = 0; } public: Caller(): m_base(0) {} ~Caller() { delBase(); } void set(Base *b) { delBase(); m_base = b; } void reset() { m_base = 0; } DoubleHolder ValCall(DoubleHolder x) { return m_base->Val(x); } DoubleHolder& RefCall(DoubleHolder& x) { return m_base->Ref(x); } DoubleHolder* PtrCall(DoubleHolder* x) { return m_base->Ptr(x); } std::string FullyOverloadedCall(int x) { return m_base->FullyOverloaded(x); } std::string FullyOverloadedCall(bool x) { return m_base->FullyOverloaded(x); } std::string SemiOverloadedCall(int x) { return m_base->SemiOverloaded(x); } std::string SemiOverloadedCall(bool x) { return m_base->SemiOverloaded(x); } std::string DefaultParmsCall(int x) { return m_base->DefaultParms(x); } std::string DefaultParmsCall(int x, double y) { return m_base->DefaultParms(x, y); } }; %} %feature(director) BaseClass; %feature(director) DerivedClass; %inline %{ class BaseClass { public: virtual ~BaseClass() {}; virtual int dofoo(int& one, int& two, int& three) {return 0;} }; class DerivedClass : public BaseClass { }; %}