// Copyright (c) 2012 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 PPAPI_CPP_OUTPUT_TRAITS_H_ #define PPAPI_CPP_OUTPUT_TRAITS_H_ #include #include "ppapi/c/pp_resource.h" #include "ppapi/cpp/array_output.h" #include "ppapi/cpp/dev/directory_entry_dev.h" #include "ppapi/cpp/extensions/ext_output_traits.h" #include "ppapi/cpp/resource.h" /// @file /// This file defines internal templates for defining how data is passed to the /// browser via output parameters and how to convert that data to the /// corresponding C++ object types. /// /// It is used by the callback system, it should not be necessary for end-users /// to use these templates directly. struct PP_Var; namespace pp { class Var; namespace internal { // This goop is a trick used to implement a template that can be used to // determine if a given class is the base class of another given class. It is // used in the resource object partial specialization below. template struct IsSame { static bool const value = false; }; template struct IsSame { static bool const value = true; }; template struct IsBaseOf { private: // This class doesn't work correctly with forward declarations. // Because sizeof cannot be applied to incomplete types, this line prevents us // from passing in forward declarations. typedef char (*EnsureTypesAreComplete)[sizeof(Base) + sizeof(Derived)]; static Derived* CreateDerived(); static char (&Check(Base*))[1]; static char (&Check(...))[2]; public: static bool const value = sizeof Check(CreateDerived()) == 1 && !IsSame::value; }; // Template to optionally derive from a given base class T if the given // predicate P is true. template struct InheritIf {}; template struct InheritIf : public T {}; // Single output parameters ---------------------------------------------------- // Output traits for all "plain old data" (POD) types. It is implemented to // pass a pointer to the browser as an output parameter. // // This is used as a base class for the general CallbackOutputTraits below in // the case where T is not a resource. template struct GenericCallbackOutputTraits { // The type passed to the PPAPI C API for this parameter. For normal out // params, we pass a pointer to the object so the browser can write into it. typedef T* APIArgType; // The type used to store the value. This is used internally in asynchronous // callbacks by the CompletionCallbackFactory to have the browser write into // a temporary value associated with the callback, which is passed to the // plugin code when the callback is issued. typedef T StorageType; // Converts a "storage type" to a value that can be passed to the browser as // an output parameter. This just takes the address to convert the value to // a pointer. static inline APIArgType StorageToAPIArg(StorageType& t) { return &t; } // Converts the "storage type" to the value we pass to the plugin for // callbacks. This doesn't actually need to do anything in this case, // it's needed for some of more complex template specializations below. static inline T& StorageToPluginArg(StorageType& t) { return t; } }; // Output traits for all resource types. It is implemented to pass a // PP_Resource* as an output parameter to the browser, and convert to the // given resource object type T when passing to the plugin. // // Note that this class is parameterized by the resource object, for example // ResourceCallbackOutputTraits. This is used as a base class for // CallbackOutputTraits below for the case where T is a derived class of // pp::Resource. template struct ResourceCallbackOutputTraits { // To call the browser, we just pass a PP_Resource pointer as the out param. typedef PP_Resource* APIArgType; typedef PP_Resource StorageType; static inline APIArgType StorageToAPIArg(StorageType& t) { return &t; } // Converts the PP_Resource to a pp::* object, passing any reference counted // object along with it. This must only be called once since there will only // be one reference that the browser has assigned to us for the out param! // When calling into the plugin, convert the PP_Resource into the requested // resource object type. static inline T StorageToPluginArg(StorageType& t) { return T(PASS_REF, t); } }; // The general templatized base class for all CallbackOutputTraits. This class // covers resources, extensions API output objects and POD (ints, structs, etc.) // by inheriting from the appropriate base class depending on whether the given // type derives from pp::Resource or ext::internal::OutputObjectBase. This trick // allows us to do this once rather than writing specializations for every // object type. template struct CallbackOutputTraits : public InheritIf, IsBaseOf::value>, public InheritIf, IsBaseOf::value>, public InheritIf, !IsBaseOf::value && !IsBaseOf::value> { }; // A specialization of CallbackOutputTraits for pp::Var output parameters. // It passes a PP_Var* to the browser and converts to a pp::Var when passing // to the plugin. template<> struct CallbackOutputTraits { // To call the browser, we just pass a PP_Var* as an output param. typedef PP_Var* APIArgType; typedef PP_Var StorageType; static inline APIArgType StorageToAPIArg(StorageType& t) { return &t; } // Converts the PP_Var to a pp::Var object, passing any reference counted // object along with it. This must only be called once since there will only // be one reference that the browser has assigned to us for the out param! static inline pp::Var StorageToPluginArg(StorageType& t) { return Var(PASS_REF, t); } }; // Array output parameters ----------------------------------------------------- // Output traits for vectors of all "plain old data" (POD) types. It is // implemented to pass a pointer to the browser as an output parameter. // // This is used as a base class for the general vector CallbackOutputTraits // below in the case where T is not a resource. template struct GenericVectorCallbackOutputTraits { // All arrays are output via a PP_ArrayOutput type. typedef PP_ArrayOutput APIArgType; // We store the array as this adapter which combines the PP_ArrayOutput // structure with the underlying std::vector that it will write into. typedef ArrayOutputAdapterWithStorage StorageType; // Retrieves the PP_ArrayOutput interface for our vector object that the // browser will use to write into our code. static inline APIArgType StorageToAPIArg(StorageType& t) { return t.pp_array_output(); } // Retrieves the underlying vector that can be passed to the plugin. static inline std::vector& StorageToPluginArg(StorageType& t) { return t.output(); } }; // Output traits for all vectors of resource types. It is implemented to pass // a PP_ArrayOutput parameter to the browser, and convert the returned resources // to a vector of the given resource object type T when passing to the plugin. // // Note that this class is parameterized by the resource object, for example // ResourceVectorCallbackOutputTraits. This is used as a base // class for CallbackOutputTraits below for the case where T is a derived // class of pp::Resource. template struct ResourceVectorCallbackOutputTraits { typedef PP_ArrayOutput APIArgType; typedef ResourceArrayOutputAdapterWithStorage StorageType; static inline APIArgType StorageToAPIArg(StorageType& t) { return t.pp_array_output(); } static inline std::vector& StorageToPluginArg(StorageType& t) { return t.output(); } }; // Specialization of CallbackOutputTraits for vectors. This struct covers arrays // of resources, extensions API output objects and POD (ints, structs, etc.) by // inheriting from the appropriate base class depending on whether the given // type derives from pp::Resource or ext::internal::OutputObjectBase. This trick // allows us to do this once rather than writing specializations for every // object type. template struct CallbackOutputTraits< std::vector > : public InheritIf, IsBaseOf::value>, public InheritIf, IsBaseOf::value>, public InheritIf, !IsBaseOf::value && !IsBaseOf::value> { }; // A specialization of CallbackOutputTraits to provide the callback system // the information on how to handle vectors of pp::Var. Vectors of resources // and plain data are handled separately. See the above definition for more. template<> struct CallbackOutputTraits< std::vector > { // All arrays are output via a PP_ArrayOutput type. typedef PP_ArrayOutput APIArgType; // We store the array as this adapter which combines the PP_ArrayOutput // structure with the underlying std::vector that it will write into. typedef VarArrayOutputAdapterWithStorage StorageType; // Retrieves the PP_ArrayOutput interface for our vector object that the // browser will use to write into our code. static inline APIArgType StorageToAPIArg(StorageType& t) { return t.pp_array_output(); } // Retrieves the underlying vector that can be passed to the plugin. static inline std::vector& StorageToPluginArg(StorageType& t) { return t.output(); } }; // A specialization of CallbackOutputTraits to provide the callback system the // information on how to handle vectors of pp::DirectoryEntry_Dev. This converts // PP_DirectoryEntry_Dev to pp::DirectoryEntry_Dev when passing to the plugin. template<> struct CallbackOutputTraits< std::vector > { typedef PP_ArrayOutput APIArgType; typedef DirectoryEntryArrayOutputAdapterWithStorage StorageType; static inline APIArgType StorageToAPIArg(StorageType& t) { return t.pp_array_output(); } static inline std::vector& StorageToPluginArg( StorageType& t) { return t.output(); } }; } // namespace internal } // namespace pp #endif // PPAPI_CPP_OUTPUT_TRAITS_H_