// rak - Rakshasa's toolbox // Copyright (C) 2005-2007, Jari Sundell // // This program is free software; you can redistribute it and/or modify // it under the terms of the GNU General Public License as published by // the Free Software Foundation; either version 2 of the License, or // (at your option) any later version. // // This program is distributed in the hope that it will be useful, // but WITHOUT ANY WARRANTY; without even the implied warranty of // MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the // GNU General Public License for more details. // // You should have received a copy of the GNU General Public License // along with this program; if not, write to the Free Software // Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA // // In addition, as a special exception, the copyright holders give // permission to link the code of portions of this program with the // OpenSSL library under certain conditions as described in each // individual source file, and distribute linked combinations // including the two. // // You must obey the GNU General Public License in all respects for // all of the code used other than OpenSSL. If you modify file(s) // with this exception, you may extend this exception to your version // of the file(s), but you are not obligated to do so. If you do not // wish to do so, delete this exception statement from your version. // If you delete this exception statement from all source files in the // program, then also delete it here. // // Contact: Jari Sundell // // Skomakerveien 33 // 3185 Skoppum, NORWAY // This file contains functors that wrap function pointers and member // function pointers. // // 'fn' functors are polymorphic and derives from 'rak::function' and // thus is less strict about types, this adds the cost of calling a // virtual function. // // 'fun' functors are non-polymorphic and thus cheaper, but requires // the target object's type in the functor's template arguments. // // This should be replaced with TR1 stuff when it becomes widely // available. At the moment it behaves like std::auto_ptr, so be // careful when copying. #ifndef RAK_FUNCTIONAL_FUN_H #define RAK_FUNCTIONAL_FUN_H #include #include namespace rak { template class function_base0 { public: virtual ~function_base0() {} virtual Result operator () () = 0; }; template class function_base1 : public std::unary_function { public: virtual ~function_base1() {} virtual Result operator () (Arg1 arg1) = 0; }; template class function_base2 : public std::binary_function { public: virtual ~function_base2() {} virtual Result operator () (Arg1 arg1, Arg2 arg2) = 0; }; template class function_base3 { public: virtual ~function_base3() {} virtual Result operator () (Arg1 arg1, Arg2 arg2, Arg3 arg3) = 0; }; template class function0 { public: typedef Result result_type; typedef function_base0 base_type; bool is_valid() const { return m_base.get() != NULL; } void set(base_type* base) { m_base = std::auto_ptr(base); } base_type* release() { return m_base.release(); } Result operator () () { return (*m_base)(); } private: std::auto_ptr m_base; }; template class function1 { public: typedef Result result_type; typedef function_base1 base_type; bool is_valid() const { return m_base.get() != NULL; } void set(base_type* base) { m_base = std::auto_ptr(base); } base_type* release() { return m_base.release(); } Result operator () (Arg1 arg1) { return (*m_base)(arg1); } private: std::auto_ptr m_base; }; template class function2 { public: typedef Result result_type; typedef function_base2 base_type; bool is_valid() const { return m_base.get() != NULL; } void set(base_type* base) { m_base = std::auto_ptr(base); } base_type* release() { return m_base.release(); } Result operator () (Arg1 arg1, Arg2 arg2) { return (*m_base)(arg1, arg2); } private: std::auto_ptr m_base; }; template class function3 { public: typedef Result result_type; typedef function_base3 base_type; bool is_valid() const { return m_base.get() != NULL; } void set(base_type* base) { m_base = std::auto_ptr(base); } base_type* release() { return m_base.release(); } Result operator () (Arg1 arg1, Arg2 arg2, Arg3 arg3) { return (*m_base)(arg1, arg2, arg3); } private: std::auto_ptr m_base; }; template class ptr_fn0_t : public function_base0 { public: typedef Result (*Func)(); ptr_fn0_t(Func func) : m_func(func) {} virtual ~ptr_fn0_t() {} virtual Result operator () () { return m_func(); } private: Func m_func; }; template class ptr_fn1_t : public function_base1 { public: typedef Result (*Func)(Arg1); ptr_fn1_t(Func func) : m_func(func) {} virtual ~ptr_fn1_t() {} virtual Result operator () (Arg1 arg1) { return m_func(arg1); } private: Func m_func; }; template class ptr_fn2_t : public function_base2 { public: typedef Result (*Func)(Arg1, Arg2); ptr_fn2_t(Func func) : m_func(func) {} virtual ~ptr_fn2_t() {} virtual Result operator () (Arg1 arg1, Arg2 arg2) { return m_func(arg1, arg2); } private: Func m_func; }; template class mem_fn0_t : public function_base0 { public: typedef Result (Object::*Func)(); mem_fn0_t(Object* object, Func func) : m_object(object), m_func(func) {} virtual ~mem_fn0_t() {} virtual Result operator () () { return (m_object->*m_func)(); } private: Object* m_object; Func m_func; }; template class mem_fn1_t : public function_base1 { public: typedef Result (Object::*Func)(Arg1); mem_fn1_t(Object* object, Func func) : m_object(object), m_func(func) {} virtual ~mem_fn1_t() {} virtual Result operator () (Arg1 arg1) { return (m_object->*m_func)(arg1); } private: Object* m_object; Func m_func; }; template class mem_fn3_t : public function_base3 { public: typedef Result (Object::*Func)(Arg1, Arg2, Arg3); mem_fn3_t(Object* object, Func func) : m_object(object), m_func(func) {} virtual ~mem_fn3_t() {} virtual Result operator () (Arg1 arg1, Arg2 arg2, Arg3 arg3) { return (m_object->*m_func)(arg1, arg2, arg3); } private: Object* m_object; Func m_func; }; template class mem_fn2_t : public function_base2 { public: typedef Result (Object::*Func)(Arg1, Arg2); mem_fn2_t(Object* object, Func func) : m_object(object), m_func(func) {} virtual ~mem_fn2_t() {} virtual Result operator () (Arg1 arg1, Arg2 arg2) { return (m_object->*m_func)(arg1, arg2); } private: Object* m_object; Func m_func; }; template class const_mem_fn0_t : public function_base0 { public: typedef Result (Object::*Func)() const; const_mem_fn0_t(const Object* object, Func func) : m_object(object), m_func(func) {} virtual ~const_mem_fn0_t() {} virtual Result operator () () { return (m_object->*m_func)(); } private: const Object* m_object; Func m_func; }; template class const_mem_fn1_t : public function_base1 { public: typedef Result (Object::*Func)(Arg1) const; const_mem_fn1_t(const Object* object, Func func) : m_object(object), m_func(func) {} virtual ~const_mem_fn1_t() {} virtual Result operator () (Arg1 arg1) { return (m_object->*m_func)(arg1); } private: const Object* m_object; Func m_func; }; // Unary functor with a bound argument. template class mem_fn0_b1_t : public function_base0 { public: typedef Result (Object::*Func)(Arg1); mem_fn0_b1_t(Object* object, Func func, const Arg1 arg1) : m_object(object), m_func(func), m_arg1(arg1) {} virtual ~mem_fn0_b1_t() {} virtual Result operator () () { return (m_object->*m_func)(m_arg1); } private: Object* m_object; Func m_func; const Arg1 m_arg1; }; template class mem_fn1_b2_t : public function_base1 { public: typedef Result (Object::*Func)(Arg1, Arg2); mem_fn1_b2_t(Object* object, Func func, const Arg2 arg2) : m_object(object), m_func(func), m_arg2(arg2) {} virtual ~mem_fn1_b2_t() {} virtual Result operator () (const Arg1 arg1) { return (m_object->*m_func)(arg1, m_arg2); } private: Object* m_object; Func m_func; const Arg2 m_arg2; }; template class ptr_fn0_b1_t : public function_base0 { public: typedef Result (*Func)(Arg1); ptr_fn0_b1_t(Func func, const Arg1 arg1) : m_func(func), m_arg1(arg1) {} virtual ~ptr_fn0_b1_t() {} virtual Result operator () () { return m_func(m_arg1); } private: Func m_func; Arg1 m_arg1; }; template class ptr_fn1_b1_t : public function_base1 { public: typedef Result (*Func)(Arg1, Arg2); ptr_fn1_b1_t(Func func, const Arg1 arg1) : m_func(func), m_arg1(arg1) {} virtual ~ptr_fn1_b1_t() {} virtual Result operator () (Arg2 arg2) { return m_func(m_arg1, arg2); } private: Func m_func; Arg1 m_arg1; }; template class ptr_fn2_b1_t : public function_base2 { public: typedef Result (*Func)(Arg1, Arg2, Arg3); ptr_fn2_b1_t(Func func, const Arg1 arg1) : m_func(func), m_arg1(arg1) {} virtual ~ptr_fn2_b1_t() {} virtual Result operator () (Arg2 arg2, Arg3 arg3) { return m_func(m_arg1, arg2, arg3); } private: Func m_func; Arg1 m_arg1; }; template class ftor_fn1_t : public function_base1 { public: typedef typename Ftor::result_type result_type; typedef typename Ftor::argument_type argument_type; ftor_fn1_t(Ftor ftor) : m_ftor(ftor) {} virtual ~ftor_fn1_t() {} virtual result_type operator () (argument_type arg1) { return m_ftor(arg1); } private: Ftor m_ftor; }; template class ftor_fn2_t : public function_base2 { public: typedef typename Ftor::result_type result_type; typedef typename Ftor::first_argument_type first_argument_type; typedef typename Ftor::second_argument_type second_argument_type; ftor_fn2_t(Ftor ftor) : m_ftor(ftor) {} virtual ~ftor_fn2_t() {} virtual result_type operator () (first_argument_type arg1, second_argument_type arg2) { return m_ftor(arg1, arg2); } private: Ftor m_ftor; }; template class value_fn0_t : public function_base0 { public: value_fn0_t(const Result& val) : m_value(val) {} virtual Result operator () () { return m_value; } private: Result m_value; }; template class convert_fn0_t : public function_base0 { public: typedef function0 src_type; convert_fn0_t(typename src_type::base_type* object) { m_object.set(object); } virtual ~convert_fn0_t() {} virtual Result operator () () { return m_object(); } private: src_type m_object; }; template class convert_fn1_t : public function_base1 { public: typedef function1 src_type; convert_fn1_t(typename src_type::base_type* object) { m_object.set(object); } virtual ~convert_fn1_t() {} virtual Result operator () (Arg1 arg1) { return m_object(arg1); } private: src_type m_object; }; template class convert_fn2_t : public function_base2 { public: typedef function2 src_type; convert_fn2_t(typename src_type::base_type* object) { m_object.set(object); } virtual ~convert_fn2_t() {} virtual Result operator () (Arg1 arg1, Arg2 arg2) { return m_object(arg1, arg2); } private: src_type m_object; }; template inline function_base0* ptr_fn(Result (*func)()) { return new ptr_fn0_t(func); } template inline function_base1* ptr_fn(Result (*func)(Arg1)) { return new ptr_fn1_t(func); } template inline function_base2* ptr_fn(Result (*func)(Arg1, Arg2)) { return new ptr_fn2_t(func); } template inline function_base0* mem_fn(Object* object, Result (Object::*func)()) { return new mem_fn0_t(object, func); } template inline function_base1* mem_fn(Object* object, Result (Object::*func)(Arg1)) { return new mem_fn1_t(object, func); } template inline function_base2* mem_fn(Object* object, Result (Object::*func)(Arg1, Arg2)) { return new mem_fn2_t(object, func); } template inline function_base3* mem_fn(Object* object, Result (Object::*func)(Arg1, Arg2, Arg3)) { return new mem_fn3_t(object, func); } template inline function_base0* mem_fn(const Object* object, Result (Object::*func)() const) { return new const_mem_fn0_t(object, func); } template inline function_base1* mem_fn(const Object* object, Result (Object::*func)(Arg1) const) { return new const_mem_fn1_t(object, func); } template inline function_base0* bind_mem_fn(Object* object, Result (Object::*func)(Arg1), const Arg1 arg1) { return new mem_fn0_b1_t(object, func, arg1); } template inline function_base1* bind2_mem_fn(Object* object, Result (Object::*func)(Arg1, Arg2), const Arg2 arg2) { return new mem_fn1_b2_t(object, func, arg2); } template inline function_base0* bind_ptr_fn(Result (*func)(Arg1), const Arg1 arg1) { return new ptr_fn0_b1_t(func, arg1); } template inline function_base1* bind_ptr_fn(Result (*func)(Arg1, Arg2), const Arg1 arg1) { return new ptr_fn1_b1_t(func, arg1); } template inline function_base2* bind_ptr_fn(Result (*func)(Arg1, Arg2, Arg3), const Arg1 arg1) { return new ptr_fn2_b1_t(func, arg1); } template inline function_base1* ftor_fn1(Ftor ftor) { return new ftor_fn1_t(ftor); } template inline function_base2* ftor_fn2(Ftor ftor) { return new ftor_fn2_t(ftor); } template inline function_base0* value_fn(const Result& val) { return new value_fn0_t(val); } template struct equal_types_t { typedef A first_type; typedef B second_type; const static int result = 0; }; template struct equal_types_t { typedef A first_type; typedef A second_type; const static int result = 1; }; template inline function_base0* convert_fn(function_base0* src) { if (equal_types_t, function_base0 >::result) // The pointer cast never gets done if the types are different, // but needs to be here to pleasant the compiler. return reinterpret_cast, function_base0 >::first_type*>(src); else return new convert_fn0_t(src); } template inline function_base1* convert_fn(function_base1* src) { if (equal_types_t, function_base1 >::result) // The pointer cast never gets done if the types are different, // but needs to be here to pleasant the compiler. return reinterpret_cast, function_base1 >::first_type*>(src); else return new convert_fn1_t(src); } template inline function_base2* convert_fn(function_base2* src) { if (equal_types_t, function_base2 >::result) // The pointer cast never gets done if the types are different, // but needs to be here to pleasant the compiler. return reinterpret_cast, function_base2 >::first_type*>(src); else return new convert_fn2_t(src); } } #endif