// This file was GENERATED by command: // pump.py bind.h.pump // DO NOT EDIT BY HAND!!! // Copyright (c) 2011 The Chromium Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. #ifndef BASE_BIND_H_ #define BASE_BIND_H_ #include "base/bind_internal.h" #include "base/callback_internal.h" // ----------------------------------------------------------------------------- // Usage documentation // ----------------------------------------------------------------------------- // // See base/callback.h for documentation. // // // ----------------------------------------------------------------------------- // Implementation notes // ----------------------------------------------------------------------------- // // If you're reading the implementation, before proceeding further, you should // read the top comment of base/bind_internal.h for a definition of common // terms and concepts. // // RETURN TYPES // // Though Bind()'s result is meant to be stored in a Callback<> type, it // cannot actually return the exact type without requiring a large amount // of extra template specializations. The problem is that in order to // discern the correct specialization of Callback<>, Bind would need to // unwrap the function signature to determine the signature's arity, and // whether or not it is a method. // // Each unique combination of (arity, function_type, num_prebound) where // function_type is one of {function, method, const_method} would require // one specialization. We eventually have to do a similar number of // specializations anyways in the implementation (see the Invoker<>, // classes). However, it is avoidable in Bind if we return the result // via an indirection like we do below. // // TODO(ajwong): We might be able to avoid this now, but need to test. // // It is possible to move most of the COMPILE_ASSERT asserts into BindState<>, // but it feels a little nicer to have the asserts here so people do not // need to crack open bind_internal.h. On the other hand, it makes Bind() // harder to read. namespace base { template <typename Functor> base::Callback< typename internal::BindState< typename internal::FunctorTraits<Functor>::RunnableType, typename internal::FunctorTraits<Functor>::RunType, void()> ::UnboundRunType> Bind(Functor functor) { // Typedefs for how to store and run the functor. typedef typename internal::FunctorTraits<Functor>::RunnableType RunnableType; typedef typename internal::FunctorTraits<Functor>::RunType RunType; // Use RunnableType::RunType instead of RunType above because our // checks should below for bound references need to know what the actual // functor is going to interpret the argument as. typedef internal::FunctionTraits<typename RunnableType::RunType> BoundFunctorTraits; typedef internal::BindState<RunnableType, RunType, void()> BindState; return Callback<typename BindState::UnboundRunType>( new BindState(internal::MakeRunnable(functor))); } template <typename Functor, typename P1> base::Callback< typename internal::BindState< typename internal::FunctorTraits<Functor>::RunnableType, typename internal::FunctorTraits<Functor>::RunType, void(typename internal::CallbackParamTraits<P1>::StorageType)> ::UnboundRunType> Bind(Functor functor, const P1& p1) { // Typedefs for how to store and run the functor. typedef typename internal::FunctorTraits<Functor>::RunnableType RunnableType; typedef typename internal::FunctorTraits<Functor>::RunType RunType; // Use RunnableType::RunType instead of RunType above because our // checks should below for bound references need to know what the actual // functor is going to interpret the argument as. typedef internal::FunctionTraits<typename RunnableType::RunType> BoundFunctorTraits; // Do not allow binding a non-const reference parameter. Non-const reference // parameters are disallowed by the Google style guide. Also, binding a // non-const reference parameter can make for subtle bugs because the // invoked function will receive a reference to the stored copy of the // argument and not the original. COMPILE_ASSERT( !(is_non_const_reference<typename BoundFunctorTraits::A1Type>::value ), do_not_bind_functions_with_nonconst_ref); // For methods, we need to be careful for parameter 1. We do not require // a scoped_refptr because BindState<> itself takes care of AddRef() for // methods. We also disallow binding of an array as the method's target // object. COMPILE_ASSERT( internal::HasIsMethodTag<RunnableType>::value || !internal::NeedsScopedRefptrButGetsRawPtr<P1>::value, p1_is_refcounted_type_and_needs_scoped_refptr); COMPILE_ASSERT(!internal::HasIsMethodTag<RunnableType>::value || !is_array<P1>::value, first_bound_argument_to_method_cannot_be_array); typedef internal::BindState<RunnableType, RunType, void(typename internal::CallbackParamTraits<P1>::StorageType)> BindState; return Callback<typename BindState::UnboundRunType>( new BindState(internal::MakeRunnable(functor), p1)); } template <typename Functor, typename P1, typename P2> base::Callback< typename internal::BindState< typename internal::FunctorTraits<Functor>::RunnableType, typename internal::FunctorTraits<Functor>::RunType, void(typename internal::CallbackParamTraits<P1>::StorageType, typename internal::CallbackParamTraits<P2>::StorageType)> ::UnboundRunType> Bind(Functor functor, const P1& p1, const P2& p2) { // Typedefs for how to store and run the functor. typedef typename internal::FunctorTraits<Functor>::RunnableType RunnableType; typedef typename internal::FunctorTraits<Functor>::RunType RunType; // Use RunnableType::RunType instead of RunType above because our // checks should below for bound references need to know what the actual // functor is going to interpret the argument as. typedef internal::FunctionTraits<typename RunnableType::RunType> BoundFunctorTraits; // Do not allow binding a non-const reference parameter. Non-const reference // parameters are disallowed by the Google style guide. Also, binding a // non-const reference parameter can make for subtle bugs because the // invoked function will receive a reference to the stored copy of the // argument and not the original. COMPILE_ASSERT( !(is_non_const_reference<typename BoundFunctorTraits::A1Type>::value || is_non_const_reference<typename BoundFunctorTraits::A2Type>::value ), do_not_bind_functions_with_nonconst_ref); // For methods, we need to be careful for parameter 1. We do not require // a scoped_refptr because BindState<> itself takes care of AddRef() for // methods. We also disallow binding of an array as the method's target // object. COMPILE_ASSERT( internal::HasIsMethodTag<RunnableType>::value || !internal::NeedsScopedRefptrButGetsRawPtr<P1>::value, p1_is_refcounted_type_and_needs_scoped_refptr); COMPILE_ASSERT(!internal::HasIsMethodTag<RunnableType>::value || !is_array<P1>::value, first_bound_argument_to_method_cannot_be_array); COMPILE_ASSERT(!internal::NeedsScopedRefptrButGetsRawPtr<P2>::value, p2_is_refcounted_type_and_needs_scoped_refptr); typedef internal::BindState<RunnableType, RunType, void(typename internal::CallbackParamTraits<P1>::StorageType, typename internal::CallbackParamTraits<P2>::StorageType)> BindState; return Callback<typename BindState::UnboundRunType>( new BindState(internal::MakeRunnable(functor), p1, p2)); } template <typename Functor, typename P1, typename P2, typename P3> base::Callback< typename internal::BindState< typename internal::FunctorTraits<Functor>::RunnableType, typename internal::FunctorTraits<Functor>::RunType, void(typename internal::CallbackParamTraits<P1>::StorageType, typename internal::CallbackParamTraits<P2>::StorageType, typename internal::CallbackParamTraits<P3>::StorageType)> ::UnboundRunType> Bind(Functor functor, const P1& p1, const P2& p2, const P3& p3) { // Typedefs for how to store and run the functor. typedef typename internal::FunctorTraits<Functor>::RunnableType RunnableType; typedef typename internal::FunctorTraits<Functor>::RunType RunType; // Use RunnableType::RunType instead of RunType above because our // checks should below for bound references need to know what the actual // functor is going to interpret the argument as. typedef internal::FunctionTraits<typename RunnableType::RunType> BoundFunctorTraits; // Do not allow binding a non-const reference parameter. Non-const reference // parameters are disallowed by the Google style guide. Also, binding a // non-const reference parameter can make for subtle bugs because the // invoked function will receive a reference to the stored copy of the // argument and not the original. COMPILE_ASSERT( !(is_non_const_reference<typename BoundFunctorTraits::A1Type>::value || is_non_const_reference<typename BoundFunctorTraits::A2Type>::value || is_non_const_reference<typename BoundFunctorTraits::A3Type>::value ), do_not_bind_functions_with_nonconst_ref); // For methods, we need to be careful for parameter 1. We do not require // a scoped_refptr because BindState<> itself takes care of AddRef() for // methods. We also disallow binding of an array as the method's target // object. COMPILE_ASSERT( internal::HasIsMethodTag<RunnableType>::value || !internal::NeedsScopedRefptrButGetsRawPtr<P1>::value, p1_is_refcounted_type_and_needs_scoped_refptr); COMPILE_ASSERT(!internal::HasIsMethodTag<RunnableType>::value || !is_array<P1>::value, first_bound_argument_to_method_cannot_be_array); COMPILE_ASSERT(!internal::NeedsScopedRefptrButGetsRawPtr<P2>::value, p2_is_refcounted_type_and_needs_scoped_refptr); COMPILE_ASSERT(!internal::NeedsScopedRefptrButGetsRawPtr<P3>::value, p3_is_refcounted_type_and_needs_scoped_refptr); typedef internal::BindState<RunnableType, RunType, void(typename internal::CallbackParamTraits<P1>::StorageType, typename internal::CallbackParamTraits<P2>::StorageType, typename internal::CallbackParamTraits<P3>::StorageType)> BindState; return Callback<typename BindState::UnboundRunType>( new BindState(internal::MakeRunnable(functor), p1, p2, p3)); } template <typename Functor, typename P1, typename P2, typename P3, typename P4> base::Callback< typename internal::BindState< typename internal::FunctorTraits<Functor>::RunnableType, typename internal::FunctorTraits<Functor>::RunType, void(typename internal::CallbackParamTraits<P1>::StorageType, typename internal::CallbackParamTraits<P2>::StorageType, typename internal::CallbackParamTraits<P3>::StorageType, typename internal::CallbackParamTraits<P4>::StorageType)> ::UnboundRunType> Bind(Functor functor, const P1& p1, const P2& p2, const P3& p3, const P4& p4) { // Typedefs for how to store and run the functor. typedef typename internal::FunctorTraits<Functor>::RunnableType RunnableType; typedef typename internal::FunctorTraits<Functor>::RunType RunType; // Use RunnableType::RunType instead of RunType above because our // checks should below for bound references need to know what the actual // functor is going to interpret the argument as. typedef internal::FunctionTraits<typename RunnableType::RunType> BoundFunctorTraits; // Do not allow binding a non-const reference parameter. Non-const reference // parameters are disallowed by the Google style guide. Also, binding a // non-const reference parameter can make for subtle bugs because the // invoked function will receive a reference to the stored copy of the // argument and not the original. COMPILE_ASSERT( !(is_non_const_reference<typename BoundFunctorTraits::A1Type>::value || is_non_const_reference<typename BoundFunctorTraits::A2Type>::value || is_non_const_reference<typename BoundFunctorTraits::A3Type>::value || is_non_const_reference<typename BoundFunctorTraits::A4Type>::value ), do_not_bind_functions_with_nonconst_ref); // For methods, we need to be careful for parameter 1. We do not require // a scoped_refptr because BindState<> itself takes care of AddRef() for // methods. We also disallow binding of an array as the method's target // object. COMPILE_ASSERT( internal::HasIsMethodTag<RunnableType>::value || !internal::NeedsScopedRefptrButGetsRawPtr<P1>::value, p1_is_refcounted_type_and_needs_scoped_refptr); COMPILE_ASSERT(!internal::HasIsMethodTag<RunnableType>::value || !is_array<P1>::value, first_bound_argument_to_method_cannot_be_array); COMPILE_ASSERT(!internal::NeedsScopedRefptrButGetsRawPtr<P2>::value, p2_is_refcounted_type_and_needs_scoped_refptr); COMPILE_ASSERT(!internal::NeedsScopedRefptrButGetsRawPtr<P3>::value, p3_is_refcounted_type_and_needs_scoped_refptr); COMPILE_ASSERT(!internal::NeedsScopedRefptrButGetsRawPtr<P4>::value, p4_is_refcounted_type_and_needs_scoped_refptr); typedef internal::BindState<RunnableType, RunType, void(typename internal::CallbackParamTraits<P1>::StorageType, typename internal::CallbackParamTraits<P2>::StorageType, typename internal::CallbackParamTraits<P3>::StorageType, typename internal::CallbackParamTraits<P4>::StorageType)> BindState; return Callback<typename BindState::UnboundRunType>( new BindState(internal::MakeRunnable(functor), p1, p2, p3, p4)); } template <typename Functor, typename P1, typename P2, typename P3, typename P4, typename P5> base::Callback< typename internal::BindState< typename internal::FunctorTraits<Functor>::RunnableType, typename internal::FunctorTraits<Functor>::RunType, void(typename internal::CallbackParamTraits<P1>::StorageType, typename internal::CallbackParamTraits<P2>::StorageType, typename internal::CallbackParamTraits<P3>::StorageType, typename internal::CallbackParamTraits<P4>::StorageType, typename internal::CallbackParamTraits<P5>::StorageType)> ::UnboundRunType> Bind(Functor functor, const P1& p1, const P2& p2, const P3& p3, const P4& p4, const P5& p5) { // Typedefs for how to store and run the functor. typedef typename internal::FunctorTraits<Functor>::RunnableType RunnableType; typedef typename internal::FunctorTraits<Functor>::RunType RunType; // Use RunnableType::RunType instead of RunType above because our // checks should below for bound references need to know what the actual // functor is going to interpret the argument as. typedef internal::FunctionTraits<typename RunnableType::RunType> BoundFunctorTraits; // Do not allow binding a non-const reference parameter. Non-const reference // parameters are disallowed by the Google style guide. Also, binding a // non-const reference parameter can make for subtle bugs because the // invoked function will receive a reference to the stored copy of the // argument and not the original. COMPILE_ASSERT( !(is_non_const_reference<typename BoundFunctorTraits::A1Type>::value || is_non_const_reference<typename BoundFunctorTraits::A2Type>::value || is_non_const_reference<typename BoundFunctorTraits::A3Type>::value || is_non_const_reference<typename BoundFunctorTraits::A4Type>::value || is_non_const_reference<typename BoundFunctorTraits::A5Type>::value ), do_not_bind_functions_with_nonconst_ref); // For methods, we need to be careful for parameter 1. We do not require // a scoped_refptr because BindState<> itself takes care of AddRef() for // methods. We also disallow binding of an array as the method's target // object. COMPILE_ASSERT( internal::HasIsMethodTag<RunnableType>::value || !internal::NeedsScopedRefptrButGetsRawPtr<P1>::value, p1_is_refcounted_type_and_needs_scoped_refptr); COMPILE_ASSERT(!internal::HasIsMethodTag<RunnableType>::value || !is_array<P1>::value, first_bound_argument_to_method_cannot_be_array); COMPILE_ASSERT(!internal::NeedsScopedRefptrButGetsRawPtr<P2>::value, p2_is_refcounted_type_and_needs_scoped_refptr); COMPILE_ASSERT(!internal::NeedsScopedRefptrButGetsRawPtr<P3>::value, p3_is_refcounted_type_and_needs_scoped_refptr); COMPILE_ASSERT(!internal::NeedsScopedRefptrButGetsRawPtr<P4>::value, p4_is_refcounted_type_and_needs_scoped_refptr); COMPILE_ASSERT(!internal::NeedsScopedRefptrButGetsRawPtr<P5>::value, p5_is_refcounted_type_and_needs_scoped_refptr); typedef internal::BindState<RunnableType, RunType, void(typename internal::CallbackParamTraits<P1>::StorageType, typename internal::CallbackParamTraits<P2>::StorageType, typename internal::CallbackParamTraits<P3>::StorageType, typename internal::CallbackParamTraits<P4>::StorageType, typename internal::CallbackParamTraits<P5>::StorageType)> BindState; return Callback<typename BindState::UnboundRunType>( new BindState(internal::MakeRunnable(functor), p1, p2, p3, p4, p5)); } template <typename Functor, typename P1, typename P2, typename P3, typename P4, typename P5, typename P6> base::Callback< typename internal::BindState< typename internal::FunctorTraits<Functor>::RunnableType, typename internal::FunctorTraits<Functor>::RunType, void(typename internal::CallbackParamTraits<P1>::StorageType, typename internal::CallbackParamTraits<P2>::StorageType, typename internal::CallbackParamTraits<P3>::StorageType, typename internal::CallbackParamTraits<P4>::StorageType, typename internal::CallbackParamTraits<P5>::StorageType, typename internal::CallbackParamTraits<P6>::StorageType)> ::UnboundRunType> Bind(Functor functor, const P1& p1, const P2& p2, const P3& p3, const P4& p4, const P5& p5, const P6& p6) { // Typedefs for how to store and run the functor. typedef typename internal::FunctorTraits<Functor>::RunnableType RunnableType; typedef typename internal::FunctorTraits<Functor>::RunType RunType; // Use RunnableType::RunType instead of RunType above because our // checks should below for bound references need to know what the actual // functor is going to interpret the argument as. typedef internal::FunctionTraits<typename RunnableType::RunType> BoundFunctorTraits; // Do not allow binding a non-const reference parameter. Non-const reference // parameters are disallowed by the Google style guide. Also, binding a // non-const reference parameter can make for subtle bugs because the // invoked function will receive a reference to the stored copy of the // argument and not the original. COMPILE_ASSERT( !(is_non_const_reference<typename BoundFunctorTraits::A1Type>::value || is_non_const_reference<typename BoundFunctorTraits::A2Type>::value || is_non_const_reference<typename BoundFunctorTraits::A3Type>::value || is_non_const_reference<typename BoundFunctorTraits::A4Type>::value || is_non_const_reference<typename BoundFunctorTraits::A5Type>::value || is_non_const_reference<typename BoundFunctorTraits::A6Type>::value ), do_not_bind_functions_with_nonconst_ref); // For methods, we need to be careful for parameter 1. We do not require // a scoped_refptr because BindState<> itself takes care of AddRef() for // methods. We also disallow binding of an array as the method's target // object. COMPILE_ASSERT( internal::HasIsMethodTag<RunnableType>::value || !internal::NeedsScopedRefptrButGetsRawPtr<P1>::value, p1_is_refcounted_type_and_needs_scoped_refptr); COMPILE_ASSERT(!internal::HasIsMethodTag<RunnableType>::value || !is_array<P1>::value, first_bound_argument_to_method_cannot_be_array); COMPILE_ASSERT(!internal::NeedsScopedRefptrButGetsRawPtr<P2>::value, p2_is_refcounted_type_and_needs_scoped_refptr); COMPILE_ASSERT(!internal::NeedsScopedRefptrButGetsRawPtr<P3>::value, p3_is_refcounted_type_and_needs_scoped_refptr); COMPILE_ASSERT(!internal::NeedsScopedRefptrButGetsRawPtr<P4>::value, p4_is_refcounted_type_and_needs_scoped_refptr); COMPILE_ASSERT(!internal::NeedsScopedRefptrButGetsRawPtr<P5>::value, p5_is_refcounted_type_and_needs_scoped_refptr); COMPILE_ASSERT(!internal::NeedsScopedRefptrButGetsRawPtr<P6>::value, p6_is_refcounted_type_and_needs_scoped_refptr); typedef internal::BindState<RunnableType, RunType, void(typename internal::CallbackParamTraits<P1>::StorageType, typename internal::CallbackParamTraits<P2>::StorageType, typename internal::CallbackParamTraits<P3>::StorageType, typename internal::CallbackParamTraits<P4>::StorageType, typename internal::CallbackParamTraits<P5>::StorageType, typename internal::CallbackParamTraits<P6>::StorageType)> BindState; return Callback<typename BindState::UnboundRunType>( new BindState(internal::MakeRunnable(functor), p1, p2, p3, p4, p5, p6)); } template <typename Functor, typename P1, typename P2, typename P3, typename P4, typename P5, typename P6, typename P7> base::Callback< typename internal::BindState< typename internal::FunctorTraits<Functor>::RunnableType, typename internal::FunctorTraits<Functor>::RunType, void(typename internal::CallbackParamTraits<P1>::StorageType, typename internal::CallbackParamTraits<P2>::StorageType, typename internal::CallbackParamTraits<P3>::StorageType, typename internal::CallbackParamTraits<P4>::StorageType, typename internal::CallbackParamTraits<P5>::StorageType, typename internal::CallbackParamTraits<P6>::StorageType, typename internal::CallbackParamTraits<P7>::StorageType)> ::UnboundRunType> Bind(Functor functor, const P1& p1, const P2& p2, const P3& p3, const P4& p4, const P5& p5, const P6& p6, const P7& p7) { // Typedefs for how to store and run the functor. typedef typename internal::FunctorTraits<Functor>::RunnableType RunnableType; typedef typename internal::FunctorTraits<Functor>::RunType RunType; // Use RunnableType::RunType instead of RunType above because our // checks should below for bound references need to know what the actual // functor is going to interpret the argument as. typedef internal::FunctionTraits<typename RunnableType::RunType> BoundFunctorTraits; // Do not allow binding a non-const reference parameter. Non-const reference // parameters are disallowed by the Google style guide. Also, binding a // non-const reference parameter can make for subtle bugs because the // invoked function will receive a reference to the stored copy of the // argument and not the original. COMPILE_ASSERT( !(is_non_const_reference<typename BoundFunctorTraits::A1Type>::value || is_non_const_reference<typename BoundFunctorTraits::A2Type>::value || is_non_const_reference<typename BoundFunctorTraits::A3Type>::value || is_non_const_reference<typename BoundFunctorTraits::A4Type>::value || is_non_const_reference<typename BoundFunctorTraits::A5Type>::value || is_non_const_reference<typename BoundFunctorTraits::A6Type>::value || is_non_const_reference<typename BoundFunctorTraits::A7Type>::value ), do_not_bind_functions_with_nonconst_ref); // For methods, we need to be careful for parameter 1. We do not require // a scoped_refptr because BindState<> itself takes care of AddRef() for // methods. We also disallow binding of an array as the method's target // object. COMPILE_ASSERT( internal::HasIsMethodTag<RunnableType>::value || !internal::NeedsScopedRefptrButGetsRawPtr<P1>::value, p1_is_refcounted_type_and_needs_scoped_refptr); COMPILE_ASSERT(!internal::HasIsMethodTag<RunnableType>::value || !is_array<P1>::value, first_bound_argument_to_method_cannot_be_array); COMPILE_ASSERT(!internal::NeedsScopedRefptrButGetsRawPtr<P2>::value, p2_is_refcounted_type_and_needs_scoped_refptr); COMPILE_ASSERT(!internal::NeedsScopedRefptrButGetsRawPtr<P3>::value, p3_is_refcounted_type_and_needs_scoped_refptr); COMPILE_ASSERT(!internal::NeedsScopedRefptrButGetsRawPtr<P4>::value, p4_is_refcounted_type_and_needs_scoped_refptr); COMPILE_ASSERT(!internal::NeedsScopedRefptrButGetsRawPtr<P5>::value, p5_is_refcounted_type_and_needs_scoped_refptr); COMPILE_ASSERT(!internal::NeedsScopedRefptrButGetsRawPtr<P6>::value, p6_is_refcounted_type_and_needs_scoped_refptr); COMPILE_ASSERT(!internal::NeedsScopedRefptrButGetsRawPtr<P7>::value, p7_is_refcounted_type_and_needs_scoped_refptr); typedef internal::BindState<RunnableType, RunType, void(typename internal::CallbackParamTraits<P1>::StorageType, typename internal::CallbackParamTraits<P2>::StorageType, typename internal::CallbackParamTraits<P3>::StorageType, typename internal::CallbackParamTraits<P4>::StorageType, typename internal::CallbackParamTraits<P5>::StorageType, typename internal::CallbackParamTraits<P6>::StorageType, typename internal::CallbackParamTraits<P7>::StorageType)> BindState; return Callback<typename BindState::UnboundRunType>( new BindState(internal::MakeRunnable(functor), p1, p2, p3, p4, p5, p6, p7)); } } // namespace base #endif // BASE_BIND_H_