// This file was GENERATED by command: // pump.py bind.h.pump // DO NOT EDIT BY HAND!!! /* * Copyright 2012 The WebRTC Project Authors. All rights reserved. * * Use of this source code is governed by a BSD-style license * that can be found in the LICENSE file in the root of the source * tree. An additional intellectual property rights grant can be found * in the file PATENTS. All contributing project authors may * be found in the AUTHORS file in the root of the source tree. */ // To generate bind.h from bind.h.pump, execute: // /home/build/google3/third_party/gtest/scripts/pump.py bind.h.pump // Bind() is an overloaded function that converts method calls into function // objects (aka functors). The method object is captured as a scoped_refptr<> if // possible, and as a raw pointer otherwise. Any arguments to the method are // captured by value. The return value of Bind is a stateful, nullary function // object. Care should be taken about the lifetime of objects captured by // Bind(); the returned functor knows nothing about the lifetime of a non // ref-counted method object or any arguments passed by pointer, and calling the // functor with a destroyed object will surely do bad things. // // Example usage: // struct Foo { // int Test1() { return 42; } // int Test2() const { return 52; } // int Test3(int x) { return x*x; } // float Test4(int x, float y) { return x + y; } // }; // // int main() { // Foo foo; // cout << rtc::Bind(&Foo::Test1, &foo)() << endl; // cout << rtc::Bind(&Foo::Test2, &foo)() << endl; // cout << rtc::Bind(&Foo::Test3, &foo, 3)() << endl; // cout << rtc::Bind(&Foo::Test4, &foo, 7, 8.5f)() << endl; // } // // Example usage of ref counted objects: // struct Bar { // int AddRef(); // int Release(); // // void Test() {} // void BindThis() { // // The functor passed to AsyncInvoke() will keep this object alive. // invoker.AsyncInvoke(RTC_FROM_HERE,rtc::Bind(&Bar::Test, this)); // } // }; // // int main() { // rtc::scoped_refptr bar = new rtc::RefCountedObject(); // auto functor = rtc::Bind(&Bar::Test, bar); // bar = nullptr; // // The functor stores an internal scoped_refptr, so this is safe. // functor(); // } // #ifndef WEBRTC_BASE_BIND_H_ #define WEBRTC_BASE_BIND_H_ #include "webrtc/base/scoped_ref_ptr.h" #include "webrtc/base/template_util.h" #define NONAME namespace rtc { namespace detail { // This is needed because the template parameters in Bind can't be resolved // if they're used both as parameters of the function pointer type and as // parameters to Bind itself: the function pointer parameters are exact // matches to the function prototype, but the parameters to bind have // references stripped. This trick allows the compiler to dictate the Bind // parameter types rather than deduce them. template struct identity { typedef T type; }; // IsRefCounted::value will be true for types that can be used in // rtc::scoped_refptr, i.e. types that implements nullary functions AddRef() // and Release(), regardless of their return types. AddRef() and Release() can // be defined in T or any superclass of T. template class IsRefCounted { // This is a complex implementation detail done with SFINAE. // Define types such that sizeof(Yes) != sizeof(No). struct Yes { char dummy[1]; }; struct No { char dummy[2]; }; // Define two overloaded template functions with return types of different // size. This way, we can use sizeof() on the return type to determine which // function the compiler would have chosen. One function will be preferred // over the other if it is possible to create it without compiler errors, // otherwise the compiler will simply remove it, and default to the less // preferred function. template static Yes test(R* r, decltype(r->AddRef(), r->Release(), 42)); template static No test(...); public: // Trick the compiler to tell if it's possible to call AddRef() and Release(). static const bool value = sizeof(test((T*)nullptr, 42)) == sizeof(Yes); }; // TernaryTypeOperator is a helper class to select a type based on a static bool // value. template struct TernaryTypeOperator {}; template struct TernaryTypeOperator { typedef IfTrueT type; }; template struct TernaryTypeOperator { typedef IfFalseT type; }; // PointerType::type will be scoped_refptr for ref counted types, and T* // otherwise. template struct PointerType { typedef typename TernaryTypeOperator::value, scoped_refptr, T*>::type type; }; } // namespace detail template class MethodFunctor0 { public: MethodFunctor0(MethodT method, ObjectT* object) : method_(method), object_(object) {} R operator()() const { return (object_->*method_)(); } private: MethodT method_; typename detail::PointerType::type object_; }; template class Functor0 { public: explicit Functor0(const FunctorT& functor) : functor_(functor) {} R operator()() const { return functor_(); } private: FunctorT functor_; }; #define FP_T(x) R (ObjectT::*x)() template MethodFunctor0 Bind(FP_T(method), ObjectT* object) { return MethodFunctor0( method, object); } #undef FP_T #define FP_T(x) R (ObjectT::*x)() const template MethodFunctor0 Bind(FP_T(method), const ObjectT* object) { return MethodFunctor0( method, object); } #undef FP_T #define FP_T(x) R (ObjectT::*x)() template MethodFunctor0 Bind(FP_T(method), const scoped_refptr& object) { return MethodFunctor0( method, object.get()); } #undef FP_T #define FP_T(x) R (*x)() template Functor0 Bind(FP_T(function)) { return Functor0( function); } #undef FP_T template class MethodFunctor1 { public: MethodFunctor1(MethodT method, ObjectT* object, P1 p1) : method_(method), object_(object), p1_(p1) {} R operator()() const { return (object_->*method_)(p1_); } private: MethodT method_; typename detail::PointerType::type object_; typename rtc::remove_reference::type p1_; }; template class Functor1 { public: Functor1(const FunctorT& functor, P1 p1) : functor_(functor), p1_(p1) {} R operator()() const { return functor_(p1_); } private: FunctorT functor_; typename rtc::remove_reference::type p1_; }; #define FP_T(x) R (ObjectT::*x)(P1) template MethodFunctor1 Bind(FP_T(method), ObjectT* object, typename detail::identity::type p1) { return MethodFunctor1( method, object, p1); } #undef FP_T #define FP_T(x) R (ObjectT::*x)(P1) const template MethodFunctor1 Bind(FP_T(method), const ObjectT* object, typename detail::identity::type p1) { return MethodFunctor1( method, object, p1); } #undef FP_T #define FP_T(x) R (ObjectT::*x)(P1) template MethodFunctor1 Bind(FP_T(method), const scoped_refptr& object, typename detail::identity::type p1) { return MethodFunctor1( method, object.get(), p1); } #undef FP_T #define FP_T(x) R (*x)(P1) template Functor1 Bind(FP_T(function), typename detail::identity::type p1) { return Functor1( function, p1); } #undef FP_T template class MethodFunctor2 { public: MethodFunctor2(MethodT method, ObjectT* object, P1 p1, P2 p2) : method_(method), object_(object), p1_(p1), p2_(p2) {} R operator()() const { return (object_->*method_)(p1_, p2_); } private: MethodT method_; typename detail::PointerType::type object_; typename rtc::remove_reference::type p1_; typename rtc::remove_reference::type p2_; }; template class Functor2 { public: Functor2(const FunctorT& functor, P1 p1, P2 p2) : functor_(functor), p1_(p1), p2_(p2) {} R operator()() const { return functor_(p1_, p2_); } private: FunctorT functor_; typename rtc::remove_reference::type p1_; typename rtc::remove_reference::type p2_; }; #define FP_T(x) R (ObjectT::*x)(P1, P2) template MethodFunctor2 Bind(FP_T(method), ObjectT* object, typename detail::identity::type p1, typename detail::identity::type p2) { return MethodFunctor2( method, object, p1, p2); } #undef FP_T #define FP_T(x) R (ObjectT::*x)(P1, P2) const template MethodFunctor2 Bind(FP_T(method), const ObjectT* object, typename detail::identity::type p1, typename detail::identity::type p2) { return MethodFunctor2( method, object, p1, p2); } #undef FP_T #define FP_T(x) R (ObjectT::*x)(P1, P2) template MethodFunctor2 Bind(FP_T(method), const scoped_refptr& object, typename detail::identity::type p1, typename detail::identity::type p2) { return MethodFunctor2( method, object.get(), p1, p2); } #undef FP_T #define FP_T(x) R (*x)(P1, P2) template Functor2 Bind(FP_T(function), typename detail::identity::type p1, typename detail::identity::type p2) { return Functor2( function, p1, p2); } #undef FP_T template class MethodFunctor3 { public: MethodFunctor3(MethodT method, ObjectT* object, P1 p1, P2 p2, P3 p3) : method_(method), object_(object), p1_(p1), p2_(p2), p3_(p3) {} R operator()() const { return (object_->*method_)(p1_, p2_, p3_); } private: MethodT method_; typename detail::PointerType::type object_; typename rtc::remove_reference::type p1_; typename rtc::remove_reference::type p2_; typename rtc::remove_reference::type p3_; }; template class Functor3 { public: Functor3(const FunctorT& functor, P1 p1, P2 p2, P3 p3) : functor_(functor), p1_(p1), p2_(p2), p3_(p3) {} R operator()() const { return functor_(p1_, p2_, p3_); } private: FunctorT functor_; typename rtc::remove_reference::type p1_; typename rtc::remove_reference::type p2_; typename rtc::remove_reference::type p3_; }; #define FP_T(x) R (ObjectT::*x)(P1, P2, P3) template MethodFunctor3 Bind(FP_T(method), ObjectT* object, typename detail::identity::type p1, typename detail::identity::type p2, typename detail::identity::type p3) { return MethodFunctor3( method, object, p1, p2, p3); } #undef FP_T #define FP_T(x) R (ObjectT::*x)(P1, P2, P3) const template MethodFunctor3 Bind(FP_T(method), const ObjectT* object, typename detail::identity::type p1, typename detail::identity::type p2, typename detail::identity::type p3) { return MethodFunctor3( method, object, p1, p2, p3); } #undef FP_T #define FP_T(x) R (ObjectT::*x)(P1, P2, P3) template MethodFunctor3 Bind(FP_T(method), const scoped_refptr& object, typename detail::identity::type p1, typename detail::identity::type p2, typename detail::identity::type p3) { return MethodFunctor3( method, object.get(), p1, p2, p3); } #undef FP_T #define FP_T(x) R (*x)(P1, P2, P3) template Functor3 Bind(FP_T(function), typename detail::identity::type p1, typename detail::identity::type p2, typename detail::identity::type p3) { return Functor3( function, p1, p2, p3); } #undef FP_T template class MethodFunctor4 { public: MethodFunctor4(MethodT method, ObjectT* object, P1 p1, P2 p2, P3 p3, P4 p4) : method_(method), object_(object), p1_(p1), p2_(p2), p3_(p3), p4_(p4) {} R operator()() const { return (object_->*method_)(p1_, p2_, p3_, p4_); } private: MethodT method_; typename detail::PointerType::type object_; typename rtc::remove_reference::type p1_; typename rtc::remove_reference::type p2_; typename rtc::remove_reference::type p3_; typename rtc::remove_reference::type p4_; }; template class Functor4 { public: Functor4(const FunctorT& functor, P1 p1, P2 p2, P3 p3, P4 p4) : functor_(functor), p1_(p1), p2_(p2), p3_(p3), p4_(p4) {} R operator()() const { return functor_(p1_, p2_, p3_, p4_); } private: FunctorT functor_; typename rtc::remove_reference::type p1_; typename rtc::remove_reference::type p2_; typename rtc::remove_reference::type p3_; typename rtc::remove_reference::type p4_; }; #define FP_T(x) R (ObjectT::*x)(P1, P2, P3, P4) template MethodFunctor4 Bind(FP_T(method), ObjectT* object, typename detail::identity::type p1, typename detail::identity::type p2, typename detail::identity::type p3, typename detail::identity::type p4) { return MethodFunctor4( method, object, p1, p2, p3, p4); } #undef FP_T #define FP_T(x) R (ObjectT::*x)(P1, P2, P3, P4) const template MethodFunctor4 Bind(FP_T(method), const ObjectT* object, typename detail::identity::type p1, typename detail::identity::type p2, typename detail::identity::type p3, typename detail::identity::type p4) { return MethodFunctor4( method, object, p1, p2, p3, p4); } #undef FP_T #define FP_T(x) R (ObjectT::*x)(P1, P2, P3, P4) template MethodFunctor4 Bind(FP_T(method), const scoped_refptr& object, typename detail::identity::type p1, typename detail::identity::type p2, typename detail::identity::type p3, typename detail::identity::type p4) { return MethodFunctor4( method, object.get(), p1, p2, p3, p4); } #undef FP_T #define FP_T(x) R (*x)(P1, P2, P3, P4) template Functor4 Bind(FP_T(function), typename detail::identity::type p1, typename detail::identity::type p2, typename detail::identity::type p3, typename detail::identity::type p4) { return Functor4( function, p1, p2, p3, p4); } #undef FP_T template class MethodFunctor5 { public: MethodFunctor5(MethodT method, ObjectT* object, P1 p1, P2 p2, P3 p3, P4 p4, P5 p5) : method_(method), object_(object), p1_(p1), p2_(p2), p3_(p3), p4_(p4), p5_(p5) {} R operator()() const { return (object_->*method_)(p1_, p2_, p3_, p4_, p5_); } private: MethodT method_; typename detail::PointerType::type object_; typename rtc::remove_reference::type p1_; typename rtc::remove_reference::type p2_; typename rtc::remove_reference::type p3_; typename rtc::remove_reference::type p4_; typename rtc::remove_reference::type p5_; }; template class Functor5 { public: Functor5(const FunctorT& functor, P1 p1, P2 p2, P3 p3, P4 p4, P5 p5) : functor_(functor), p1_(p1), p2_(p2), p3_(p3), p4_(p4), p5_(p5) {} R operator()() const { return functor_(p1_, p2_, p3_, p4_, p5_); } private: FunctorT functor_; typename rtc::remove_reference::type p1_; typename rtc::remove_reference::type p2_; typename rtc::remove_reference::type p3_; typename rtc::remove_reference::type p4_; typename rtc::remove_reference::type p5_; }; #define FP_T(x) R (ObjectT::*x)(P1, P2, P3, P4, P5) template MethodFunctor5 Bind(FP_T(method), ObjectT* object, typename detail::identity::type p1, typename detail::identity::type p2, typename detail::identity::type p3, typename detail::identity::type p4, typename detail::identity::type p5) { return MethodFunctor5( method, object, p1, p2, p3, p4, p5); } #undef FP_T #define FP_T(x) R (ObjectT::*x)(P1, P2, P3, P4, P5) const template MethodFunctor5 Bind(FP_T(method), const ObjectT* object, typename detail::identity::type p1, typename detail::identity::type p2, typename detail::identity::type p3, typename detail::identity::type p4, typename detail::identity::type p5) { return MethodFunctor5( method, object, p1, p2, p3, p4, p5); } #undef FP_T #define FP_T(x) R (ObjectT::*x)(P1, P2, P3, P4, P5) template MethodFunctor5 Bind(FP_T(method), const scoped_refptr& object, typename detail::identity::type p1, typename detail::identity::type p2, typename detail::identity::type p3, typename detail::identity::type p4, typename detail::identity::type p5) { return MethodFunctor5( method, object.get(), p1, p2, p3, p4, p5); } #undef FP_T #define FP_T(x) R (*x)(P1, P2, P3, P4, P5) template Functor5 Bind(FP_T(function), typename detail::identity::type p1, typename detail::identity::type p2, typename detail::identity::type p3, typename detail::identity::type p4, typename detail::identity::type p5) { return Functor5( function, p1, p2, p3, p4, p5); } #undef FP_T template class MethodFunctor6 { public: MethodFunctor6(MethodT method, ObjectT* object, P1 p1, P2 p2, P3 p3, P4 p4, P5 p5, P6 p6) : method_(method), object_(object), p1_(p1), p2_(p2), p3_(p3), p4_(p4), p5_(p5), p6_(p6) {} R operator()() const { return (object_->*method_)(p1_, p2_, p3_, p4_, p5_, p6_); } private: MethodT method_; typename detail::PointerType::type object_; typename rtc::remove_reference::type p1_; typename rtc::remove_reference::type p2_; typename rtc::remove_reference::type p3_; typename rtc::remove_reference::type p4_; typename rtc::remove_reference::type p5_; typename rtc::remove_reference::type p6_; }; template class Functor6 { public: Functor6(const FunctorT& functor, P1 p1, P2 p2, P3 p3, P4 p4, P5 p5, P6 p6) : functor_(functor), p1_(p1), p2_(p2), p3_(p3), p4_(p4), p5_(p5), p6_(p6) {} R operator()() const { return functor_(p1_, p2_, p3_, p4_, p5_, p6_); } private: FunctorT functor_; typename rtc::remove_reference::type p1_; typename rtc::remove_reference::type p2_; typename rtc::remove_reference::type p3_; typename rtc::remove_reference::type p4_; typename rtc::remove_reference::type p5_; typename rtc::remove_reference::type p6_; }; #define FP_T(x) R (ObjectT::*x)(P1, P2, P3, P4, P5, P6) template MethodFunctor6 Bind(FP_T(method), ObjectT* object, typename detail::identity::type p1, typename detail::identity::type p2, typename detail::identity::type p3, typename detail::identity::type p4, typename detail::identity::type p5, typename detail::identity::type p6) { return MethodFunctor6( method, object, p1, p2, p3, p4, p5, p6); } #undef FP_T #define FP_T(x) R (ObjectT::*x)(P1, P2, P3, P4, P5, P6) const template MethodFunctor6 Bind(FP_T(method), const ObjectT* object, typename detail::identity::type p1, typename detail::identity::type p2, typename detail::identity::type p3, typename detail::identity::type p4, typename detail::identity::type p5, typename detail::identity::type p6) { return MethodFunctor6( method, object, p1, p2, p3, p4, p5, p6); } #undef FP_T #define FP_T(x) R (ObjectT::*x)(P1, P2, P3, P4, P5, P6) template MethodFunctor6 Bind(FP_T(method), const scoped_refptr& object, typename detail::identity::type p1, typename detail::identity::type p2, typename detail::identity::type p3, typename detail::identity::type p4, typename detail::identity::type p5, typename detail::identity::type p6) { return MethodFunctor6( method, object.get(), p1, p2, p3, p4, p5, p6); } #undef FP_T #define FP_T(x) R (*x)(P1, P2, P3, P4, P5, P6) template Functor6 Bind(FP_T(function), typename detail::identity::type p1, typename detail::identity::type p2, typename detail::identity::type p3, typename detail::identity::type p4, typename detail::identity::type p5, typename detail::identity::type p6) { return Functor6( function, p1, p2, p3, p4, p5, p6); } #undef FP_T template class MethodFunctor7 { public: MethodFunctor7(MethodT method, ObjectT* object, P1 p1, P2 p2, P3 p3, P4 p4, P5 p5, P6 p6, P7 p7) : method_(method), object_(object), p1_(p1), p2_(p2), p3_(p3), p4_(p4), p5_(p5), p6_(p6), p7_(p7) {} R operator()() const { return (object_->*method_)(p1_, p2_, p3_, p4_, p5_, p6_, p7_); } private: MethodT method_; typename detail::PointerType::type object_; typename rtc::remove_reference::type p1_; typename rtc::remove_reference::type p2_; typename rtc::remove_reference::type p3_; typename rtc::remove_reference::type p4_; typename rtc::remove_reference::type p5_; typename rtc::remove_reference::type p6_; typename rtc::remove_reference::type p7_; }; template class Functor7 { public: Functor7(const FunctorT& functor, P1 p1, P2 p2, P3 p3, P4 p4, P5 p5, P6 p6, P7 p7) : functor_(functor), p1_(p1), p2_(p2), p3_(p3), p4_(p4), p5_(p5), p6_(p6), p7_(p7) {} R operator()() const { return functor_(p1_, p2_, p3_, p4_, p5_, p6_, p7_); } private: FunctorT functor_; typename rtc::remove_reference::type p1_; typename rtc::remove_reference::type p2_; typename rtc::remove_reference::type p3_; typename rtc::remove_reference::type p4_; typename rtc::remove_reference::type p5_; typename rtc::remove_reference::type p6_; typename rtc::remove_reference::type p7_; }; #define FP_T(x) R (ObjectT::*x)(P1, P2, P3, P4, P5, P6, P7) template MethodFunctor7 Bind( FP_T(method), ObjectT* object, typename detail::identity::type p1, typename detail::identity::type p2, typename detail::identity::type p3, typename detail::identity::type p4, typename detail::identity::type p5, typename detail::identity::type p6, typename detail::identity::type p7) { return MethodFunctor7( method, object, p1, p2, p3, p4, p5, p6, p7); } #undef FP_T #define FP_T(x) R (ObjectT::*x)(P1, P2, P3, P4, P5, P6, P7) const template MethodFunctor7 Bind( FP_T(method), const ObjectT* object, typename detail::identity::type p1, typename detail::identity::type p2, typename detail::identity::type p3, typename detail::identity::type p4, typename detail::identity::type p5, typename detail::identity::type p6, typename detail::identity::type p7) { return MethodFunctor7(method, object, p1, p2, p3, p4, p5, p6, p7); } #undef FP_T #define FP_T(x) R (ObjectT::*x)(P1, P2, P3, P4, P5, P6, P7) template MethodFunctor7 Bind( FP_T(method), const scoped_refptr& object, typename detail::identity::type p1, typename detail::identity::type p2, typename detail::identity::type p3, typename detail::identity::type p4, typename detail::identity::type p5, typename detail::identity::type p6, typename detail::identity::type p7) { return MethodFunctor7( method, object.get(), p1, p2, p3, p4, p5, p6, p7); } #undef FP_T #define FP_T(x) R (*x)(P1, P2, P3, P4, P5, P6, P7) template Functor7 Bind( FP_T(function), typename detail::identity::type p1, typename detail::identity::type p2, typename detail::identity::type p3, typename detail::identity::type p4, typename detail::identity::type p5, typename detail::identity::type p6, typename detail::identity::type p7) { return Functor7( function, p1, p2, p3, p4, p5, p6, p7); } #undef FP_T template class MethodFunctor8 { public: MethodFunctor8(MethodT method, ObjectT* object, P1 p1, P2 p2, P3 p3, P4 p4, P5 p5, P6 p6, P7 p7, P8 p8) : method_(method), object_(object), p1_(p1), p2_(p2), p3_(p3), p4_(p4), p5_(p5), p6_(p6), p7_(p7), p8_(p8) {} R operator()() const { return (object_->*method_)(p1_, p2_, p3_, p4_, p5_, p6_, p7_, p8_); } private: MethodT method_; typename detail::PointerType::type object_; typename rtc::remove_reference::type p1_; typename rtc::remove_reference::type p2_; typename rtc::remove_reference::type p3_; typename rtc::remove_reference::type p4_; typename rtc::remove_reference::type p5_; typename rtc::remove_reference::type p6_; typename rtc::remove_reference::type p7_; typename rtc::remove_reference::type p8_; }; template class Functor8 { public: Functor8(const FunctorT& functor, P1 p1, P2 p2, P3 p3, P4 p4, P5 p5, P6 p6, P7 p7, P8 p8) : functor_(functor), p1_(p1), p2_(p2), p3_(p3), p4_(p4), p5_(p5), p6_(p6), p7_(p7), p8_(p8) {} R operator()() const { return functor_(p1_, p2_, p3_, p4_, p5_, p6_, p7_, p8_); } private: FunctorT functor_; typename rtc::remove_reference::type p1_; typename rtc::remove_reference::type p2_; typename rtc::remove_reference::type p3_; typename rtc::remove_reference::type p4_; typename rtc::remove_reference::type p5_; typename rtc::remove_reference::type p6_; typename rtc::remove_reference::type p7_; typename rtc::remove_reference::type p8_; }; #define FP_T(x) R (ObjectT::*x)(P1, P2, P3, P4, P5, P6, P7, P8) template MethodFunctor8 Bind( FP_T(method), ObjectT* object, typename detail::identity::type p1, typename detail::identity::type p2, typename detail::identity::type p3, typename detail::identity::type p4, typename detail::identity::type p5, typename detail::identity::type p6, typename detail::identity::type p7, typename detail::identity::type p8) { return MethodFunctor8(method, object, p1, p2, p3, p4, p5, p6, p7, p8); } #undef FP_T #define FP_T(x) R (ObjectT::*x)(P1, P2, P3, P4, P5, P6, P7, P8) const template MethodFunctor8 Bind(FP_T(method), const ObjectT* object, typename detail::identity::type p1, typename detail::identity::type p2, typename detail::identity::type p3, typename detail::identity::type p4, typename detail::identity::type p5, typename detail::identity::type p6, typename detail::identity::type p7, typename detail::identity::type p8) { return MethodFunctor8(method, object, p1, p2, p3, p4, p5, p6, p7, p8); } #undef FP_T #define FP_T(x) R (ObjectT::*x)(P1, P2, P3, P4, P5, P6, P7, P8) template MethodFunctor8 Bind( FP_T(method), const scoped_refptr& object, typename detail::identity::type p1, typename detail::identity::type p2, typename detail::identity::type p3, typename detail::identity::type p4, typename detail::identity::type p5, typename detail::identity::type p6, typename detail::identity::type p7, typename detail::identity::type p8) { return MethodFunctor8(method, object.get(), p1, p2, p3, p4, p5, p6, p7, p8); } #undef FP_T #define FP_T(x) R (*x)(P1, P2, P3, P4, P5, P6, P7, P8) template Functor8 Bind( FP_T(function), typename detail::identity::type p1, typename detail::identity::type p2, typename detail::identity::type p3, typename detail::identity::type p4, typename detail::identity::type p5, typename detail::identity::type p6, typename detail::identity::type p7, typename detail::identity::type p8) { return Functor8( function, p1, p2, p3, p4, p5, p6, p7, p8); } #undef FP_T template class MethodFunctor9 { public: MethodFunctor9(MethodT method, ObjectT* object, P1 p1, P2 p2, P3 p3, P4 p4, P5 p5, P6 p6, P7 p7, P8 p8, P9 p9) : method_(method), object_(object), p1_(p1), p2_(p2), p3_(p3), p4_(p4), p5_(p5), p6_(p6), p7_(p7), p8_(p8), p9_(p9) {} R operator()() const { return (object_->*method_)(p1_, p2_, p3_, p4_, p5_, p6_, p7_, p8_, p9_); } private: MethodT method_; typename detail::PointerType::type object_; typename rtc::remove_reference::type p1_; typename rtc::remove_reference::type p2_; typename rtc::remove_reference::type p3_; typename rtc::remove_reference::type p4_; typename rtc::remove_reference::type p5_; typename rtc::remove_reference::type p6_; typename rtc::remove_reference::type p7_; typename rtc::remove_reference::type p8_; typename rtc::remove_reference::type p9_; }; template class Functor9 { public: Functor9(const FunctorT& functor, P1 p1, P2 p2, P3 p3, P4 p4, P5 p5, P6 p6, P7 p7, P8 p8, P9 p9) : functor_(functor), p1_(p1), p2_(p2), p3_(p3), p4_(p4), p5_(p5), p6_(p6), p7_(p7), p8_(p8), p9_(p9) {} R operator()() const { return functor_(p1_, p2_, p3_, p4_, p5_, p6_, p7_, p8_, p9_); } private: FunctorT functor_; typename rtc::remove_reference::type p1_; typename rtc::remove_reference::type p2_; typename rtc::remove_reference::type p3_; typename rtc::remove_reference::type p4_; typename rtc::remove_reference::type p5_; typename rtc::remove_reference::type p6_; typename rtc::remove_reference::type p7_; typename rtc::remove_reference::type p8_; typename rtc::remove_reference