// 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_ARRAY_OUTPUT_H_ #define PPAPI_CPP_ARRAY_OUTPUT_H_ #include <vector> #include "ppapi/c/pp_array_output.h" #include "ppapi/c/pp_resource.h" #include "ppapi/cpp/logging.h" #include "ppapi/cpp/pass_ref.h" #include "ppapi/cpp/var.h" namespace pp { // Converts the given array of PP_Resources into an array of the requested // C++ resource types, passing ownership of a reference in the process. // // This is used to convert output arrays of resources that the browser has // generated into the more convenient C++ wrappers for those resources. The // initial "PassRef" parameter is there to emphasize what happens to the // reference count of the input resource and to match the resource constructors // that look the same. template<typename ResourceObjectType> inline void ConvertPPResourceArrayToObjects( PassRef, const std::vector<PP_Resource>& input, std::vector<ResourceObjectType>* output) { output->resize(0); output->reserve(input.size()); for (size_t i = 0; i < input.size(); i++) output->push_back(ResourceObjectType(PASS_REF, input[i])); } // Non-templatized base class for the array output conversion. It provides the // C implementation of a PP_ArrayOutput whose callback function is implemented // as a virtual call on a derived class. Do not use directly, use one of the // derived classes below. class ArrayOutputAdapterBase { public: ArrayOutputAdapterBase() { pp_array_output_.GetDataBuffer = &ArrayOutputAdapterBase::GetDataBufferThunk; pp_array_output_.user_data = this; } virtual ~ArrayOutputAdapterBase() {} const PP_ArrayOutput& pp_array_output() { return pp_array_output_; } protected: virtual void* GetDataBuffer(uint32_t element_count, uint32_t element_size) = 0; private: static void* GetDataBufferThunk(void* user_data, uint32_t element_count, uint32_t element_size); PP_ArrayOutput pp_array_output_; // Disallow copying and assignment. This will do the wrong thing for most // subclasses. ArrayOutputAdapterBase(const ArrayOutputAdapterBase&); ArrayOutputAdapterBase& operator=(const ArrayOutputAdapterBase&); }; // This adapter provides functionality for implementing a PP_ArrayOutput // structure as writing to a given vector object. // // This is generally used internally in the C++ wrapper objects to // write into an output parameter supplied by the plugin. If the element size // that the browser is writing does not match the size of the type we're using // this will assert and return NULL (which will cause the browser to fail the // call). // // Example that allows the browser to write into a given vector: // void DoFoo(std::vector<int>* results) { // ArrayOutputAdapter<int> adapter(results); // ppb_foo->DoFoo(adapter.pp_array_output()); // } template<typename T> class ArrayOutputAdapter : public ArrayOutputAdapterBase { public: ArrayOutputAdapter(std::vector<T>* output) : output_(output) {} protected: // Two-step init for the "with storage" version below. ArrayOutputAdapter() : output_(NULL) {} void set_output(std::vector<T>* output) { output_ = output; } // ArrayOutputAdapterBase implementation. virtual void* GetDataBuffer(uint32_t element_count, uint32_t element_size) { if (element_count == 0) return NULL; PP_DCHECK(element_size == sizeof(T)); if (element_size != sizeof(T)) return NULL; output_->resize(element_count); return &(*output_)[0]; } private: std::vector<T>* output_; }; // This adapter provides functionality for implementing a PP_ArrayOutput // structure as writing resources to a given vector object. // // When returning an array of resources, the browser will write PP_Resources // via a PP_ArrayOutput. This code will automatically convert the PP_Resources // to the given wrapper type, (as long as that wrapper type supports the // correct constructor). The ownership of the resources that the browser passed // to us will be transferred to the C++ wrapper object. // // Conversion of the PP_Resources to the C++ wrapper object occurs in the // destructor. This object is intended to be used on the stack in a C++ wrapper // object for a call. // // Example: // void GetFiles(std::vector<pp::FileRef>* results) { // ResourceArrayOutputAdapter<pp::FileRef> adapter(results); // ppb_foo->DoFoo(adapter.pp_array_output()); // } template<typename T> class ResourceArrayOutputAdapter : public ArrayOutputAdapterBase { public: explicit ResourceArrayOutputAdapter(std::vector<T>* output) : output_(output) { output_->resize(0); } virtual ~ResourceArrayOutputAdapter() { ConvertPPResourceArrayToObjects(PASS_REF, intermediate_output_, output_); } protected: // Two-step init for the "with storage" version below. ResourceArrayOutputAdapter() : output_(NULL) {} void set_output(T* output) { output_ = output; } // ArrayOutputAdapterBase implementation. virtual void* GetDataBuffer(uint32_t element_count, uint32_t element_size) { if (element_count == 0) return NULL; PP_DCHECK(element_size == sizeof(PP_Resource)); if (element_size != sizeof(PP_Resource)) return NULL; intermediate_output_.resize(element_count); return &intermediate_output_[0]; } private: std::vector<PP_Resource> intermediate_output_; std::vector<T>* output_; }; // This adapter is like the ArrayOutputAdapter except that it also contains // the underlying std::vector that will be populated (rather than writing it to // an object passed into the constructor). // // This is used by the CompletionCallbackFactory system to collect the output // parameters from an async function call. The collected data is then passed to // the plugins callback function. // // You can also use it directly if you want to have an array output and aren't // using the CompletionCallbackFactory. For example, if you're calling a // PPAPI function DoFoo that takes a PP_OutputArray that is supposed to be // writing integers, do this: // // ArrayOutputAdapterWithStorage<int> adapter; // ppb_foo->DoFoo(adapter.pp_output_array()); // const std::vector<int>& result = adapter.output(); template<typename T> class ArrayOutputAdapterWithStorage : public ArrayOutputAdapter<T> { public: ArrayOutputAdapterWithStorage() { this->set_output(&output_storage_); } std::vector<T>& output() { return output_storage_; } private: std::vector<T> output_storage_; }; // This adapter is like the ArrayOutputAdapterWithStorage except this // additionally converts PP_Var structs to pp::Var objects. // // You can also use it directly if you want to have an array output and aren't // using the CompletionCallbackFactory. For example, if you're calling a // PPAPI function GetVars that takes a PP_OutputArray that is supposed to be // writing PP_Vars, do this: // // VarArrayOutputAdapterWithStorage adapter; // ppb_foo->GetVars(adapter.pp_output_array()); // const std::vector<pp::Var>& result = adapter.output(). // // This one is non-inline since it's not templatized. class VarArrayOutputAdapterWithStorage : public ArrayOutputAdapter<PP_Var> { public: VarArrayOutputAdapterWithStorage(); virtual ~VarArrayOutputAdapterWithStorage(); // Returns the final array of resource objects, converting the PP_Vars // written by the browser to pp::Var objects. // // This function should only be called once or we would end up converting // the array more than once, which would mess up the refcounting. std::vector<Var>& output(); private: // The browser will write the PP_Vars into this array. std::vector<PP_Var> temp_storage_; // When asked for the output, the resources above will be converted to the // C++ resource objects in this array for passing to the calling code. std::vector<Var> output_storage_; }; // This adapter is like the ArrayOutputAdapterWithStorage except this // additionally converts PP_Resources to C++ wrapper objects of the given type. // // You can also use it directly if you want to have an array output and aren't // using the CompletionCallbackFactory. For example, if you're calling a // PPAPI function GetFiles that takes a PP_OutputArray that is supposed to be // writing PP_Resources cooresponding to FileRefs, do this: // // ResourceArrayOutputAdapterWithStorage<FileRef> adapter; // ppb_foo->GetFiles(adapter.pp_output_array()); // std::vector<FileRef> result = adapter.output(). template<typename T> class ResourceArrayOutputAdapterWithStorage : public ArrayOutputAdapter<PP_Resource> { public: ResourceArrayOutputAdapterWithStorage() { set_output(&temp_storage_); } virtual ~ResourceArrayOutputAdapterWithStorage() { if (!temp_storage_.empty()) { // An easy way to release the resource references held by this object. output(); } } // Returns the final array of resource objects, converting the PP_Resources // written by the browser to resource objects. // // This function should only be called once or we would end up converting // the array more than once, which would mess up the refcounting. std::vector<T>& output() { PP_DCHECK(output_storage_.empty()); ConvertPPResourceArrayToObjects(PASS_REF, temp_storage_, &output_storage_); temp_storage_.clear(); return output_storage_; } private: // The browser will write the PP_Resources into this array. std::vector<PP_Resource> temp_storage_; // When asked for the output, the resources above will be converted to the // C++ resource objects in this array for passing to the calling code. std::vector<T> output_storage_; }; } // namespace pp #endif // PPAPI_CPP_ARRAY_OUTPUT_H_