gin/function_template.h - chromium/src.git - Git at Google

 // Copyright 2014 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 GIN_FUNCTION_TEMPLATE_H_
 #define GIN_FUNCTION_TEMPLATE_H_

 #include <stddef.h>
 #include <utility>

 #include "base/callback.h"
 #include "base/logging.h"
 #include "base/macros.h"
 #include "base/strings/strcat.h"
 #include "gin/arguments.h"
 #include "gin/converter.h"
 #include "gin/gin_export.h"
 #include "v8/include/v8.h"

 namespace gin {

 struct InvokerOptions {
   bool holder_is_first_argument = false;
   const char* holder_type = nullptr;  // Null if unknown or not applicable.
 };

 namespace internal {

 template<typename T>
 struct CallbackParamTraits {
   typedef T LocalType;
 };
 template<typename T>
 struct CallbackParamTraits<const T&> {
   typedef T LocalType;
 };
 template<typename T>
 struct CallbackParamTraits<const T*> {
   typedef T* LocalType;
 };

 // CallbackHolder and CallbackHolderBase are used to pass a base::Callback from
 // CreateFunctionTemplate through v8 (via v8::FunctionTemplate) to
 // DispatchToCallback, where it is invoked.

 // This simple base class is used so that we can share a single object template
 // among every CallbackHolder instance.
 class GIN_EXPORT CallbackHolderBase {
  public:
   v8::Local<v8::External> GetHandle(v8::Isolate* isolate);

  protected:
   explicit CallbackHolderBase(v8::Isolate* isolate);
   virtual ~CallbackHolderBase();

  private:
   static void FirstWeakCallback(
       const v8::WeakCallbackInfo<CallbackHolderBase>& data);
   static void SecondWeakCallback(
       const v8::WeakCallbackInfo<CallbackHolderBase>& data);

   v8::Global<v8::External> v8_ref_;

   DISALLOW_COPY_AND_ASSIGN(CallbackHolderBase);
 };

 template<typename Sig>
 class CallbackHolder : public CallbackHolderBase {
  public:
   CallbackHolder(v8::Isolate* isolate,
                  base::RepeatingCallback<Sig> callback,
                  InvokerOptions invoker_options)
       : CallbackHolderBase(isolate),
         callback(std::move(callback)),
         invoker_options(std::move(invoker_options)) {}

   base::RepeatingCallback<Sig> callback;
   InvokerOptions invoker_options;

  private:
   ~CallbackHolder() override {}

   DISALLOW_COPY_AND_ASSIGN(CallbackHolder);
 };

 template <typename T>
 bool GetNextArgument(Arguments* args,
                      const InvokerOptions& invoker_options,
                      bool is_first,
                      T* result) {
   if (is_first && invoker_options.holder_is_first_argument) {
     return args->GetHolder(result);
   } else {
     return args->GetNext(result);
   }
 }

 // For advanced use cases, we allow callers to request the unparsed Arguments
 // object and poke around in it directly.
 inline bool GetNextArgument(Arguments* args,
                             const InvokerOptions& invoker_options,
                             bool is_first,
                             Arguments* result) {
   *result = *args;
   return true;
 }
 inline bool GetNextArgument(Arguments* args,
                             const InvokerOptions& invoker_options,
                             bool is_first,
                             Arguments** result) {
   *result = args;
   return true;
 }

 // It's common for clients to just need the isolate, so we make that easy.
 inline bool GetNextArgument(Arguments* args,
                             const InvokerOptions& invoker_options,
                             bool is_first,
                             v8::Isolate** result) {
   *result = args->isolate();
   return true;
 }

 // Throws an error indicating conversion failure.
 GIN_EXPORT void ThrowConversionError(Arguments* args,
                                      const InvokerOptions& invoker_options,
                                      size_t index);

 // Class template for extracting and storing single argument for callback
 // at position |index|.
 template <size_t index, typename ArgType>
 struct ArgumentHolder {
   using ArgLocalType = typename CallbackParamTraits<ArgType>::LocalType;

   ArgLocalType value;
   bool ok;

   ArgumentHolder(Arguments* args, const InvokerOptions& invoker_options)
       : ok(GetNextArgument(args, invoker_options, index == 0, &value)) {
     if (!ok)
       ThrowConversionError(args, invoker_options, index);
   }
 };

 // Class template for converting arguments from JavaScript to C++ and running
 // the callback with them.
 template <typename IndicesType, typename... ArgTypes>
 class Invoker;

 template <size_t... indices, typename... ArgTypes>
 class Invoker<std::index_sequence<indices...>, ArgTypes...>
     : public ArgumentHolder<indices, ArgTypes>... {
  public:
   // Invoker<> inherits from ArgumentHolder<> for each argument.
   // C++ has always been strict about the class initialization order,
   // so it is guaranteed ArgumentHolders will be initialized (and thus, will
   // extract arguments from Arguments) in the right order.
   Invoker(Arguments* args, const InvokerOptions& invoker_options)
       : ArgumentHolder<indices, ArgTypes>(args, invoker_options)...,
         args_(args) {}

   bool IsOK() {
     return And(ArgumentHolder<indices, ArgTypes>::ok...);
   }

   template <typename ReturnType>
   void DispatchToCallback(
       base::RepeatingCallback<ReturnType(ArgTypes...)> callback) {
     args_->Return(callback.Run(ArgumentHolder<indices, ArgTypes>::value...));
   }

   // In C++, you can declare the function foo(void), but you can't pass a void
   // expression to foo. As a result, we must specialize the case of Callbacks
   // that have the void return type.
   void DispatchToCallback(base::RepeatingCallback<void(ArgTypes...)> callback) {
     callback.Run(ArgumentHolder<indices, ArgTypes>::value...);
   }

  private:
   static bool And() { return true; }
   template <typename... T>
   static bool And(bool arg1, T... args) {
     return arg1 && And(args...);
   }

   Arguments* args_;
 };

 // DispatchToCallback converts all the JavaScript arguments to C++ types and
 // invokes the base::Callback.
 template <typename Sig>
 struct Dispatcher {};

 template <typename ReturnType, typename... ArgTypes>
 struct Dispatcher<ReturnType(ArgTypes...)> {
   static void DispatchToCallbackImpl(Arguments* args) {
     v8::Local<v8::External> v8_holder;
     CHECK(args->GetData(&v8_holder));
     CallbackHolderBase* holder_base = reinterpret_cast<CallbackHolderBase*>(
         v8_holder->Value());

     typedef CallbackHolder<ReturnType(ArgTypes...)> HolderT;
     HolderT* holder = static_cast<HolderT*>(holder_base);

     using Indices = std::index_sequence_for<ArgTypes...>;
     Invoker<Indices, ArgTypes...> invoker(args, holder->invoker_options);
     if (invoker.IsOK())
       invoker.DispatchToCallback(holder->callback);
   }

   static void DispatchToCallback(
       const v8::FunctionCallbackInfo<v8::Value>& info) {
     Arguments args(info);
     DispatchToCallbackImpl(&args);
   }

   static void DispatchToCallbackForProperty(
       v8::Local<v8::Name>,
       const v8::PropertyCallbackInfo<v8::Value>& info) {
     Arguments args(info);
     DispatchToCallbackImpl(&args);
   }
 };

 }  // namespace internal

 // CreateFunctionTemplate creates a v8::FunctionTemplate that will create
 // JavaScript functions that execute a provided C++ function or base::Callback.
 // JavaScript arguments are automatically converted via gin::Converter, as is
 // the return value of the C++ function, if any. |invoker_options| contains
 // additional parameters. If it contains a holder_type, it will be used to
 // provide a useful conversion error if the holder is the first argument. If not
 // provided, a generic invocation error will be used.
 //
 // NOTE: V8 caches FunctionTemplates for a lifetime of a web page for its own
 // internal reasons, thus it is generally a good idea to cache the template
 // returned by this function.  Otherwise, repeated method invocations from JS
 // will create substantial memory leaks. See http://crbug.com/463487.
 template <typename Sig>
 v8::Local<v8::FunctionTemplate> CreateFunctionTemplate(
     v8::Isolate* isolate,
     base::RepeatingCallback<Sig> callback,
     InvokerOptions invoker_options = {}) {
   typedef internal::CallbackHolder<Sig> HolderT;
   HolderT* holder =
       new HolderT(isolate, std::move(callback), std::move(invoker_options));

   v8::Local<v8::FunctionTemplate> tmpl = v8::FunctionTemplate::New(
       isolate, &internal::Dispatcher<Sig>::DispatchToCallback,
       ConvertToV8<v8::Local<v8::External>>(isolate,
                                            holder->GetHandle(isolate)));
   tmpl->RemovePrototype();
   return tmpl;
 }

 // CreateDataPropertyCallback creates a v8::AccessorNameGetterCallback and
 // corresponding data value that will hold and execute the provided
 // base::RepeatingCallback, using automatic conversions similar to
 // |CreateFunctionTemplate|.
 //
 // It is expected that these will be passed to v8::Template::SetLazyDataProperty
 // or another similar function.
 template <typename Sig>
 std::pair<v8::AccessorNameGetterCallback, v8::Local<v8::Value>>
 CreateDataPropertyCallback(v8::Isolate* isolate,
                            base::RepeatingCallback<Sig> callback,
                            InvokerOptions invoker_options = {}) {
   typedef internal::CallbackHolder<Sig> HolderT;
   HolderT* holder =
       new HolderT(isolate, std::move(callback), std::move(invoker_options));
   return {&internal::Dispatcher<Sig>::DispatchToCallbackForProperty,
           ConvertToV8<v8::Local<v8::External>>(isolate,
                                                holder->GetHandle(isolate))};
 }

 }  // namespace gin

 #endif  // GIN_FUNCTION_TEMPLATE_H_
	// Copyright 2014 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 GIN_FUNCTION_TEMPLATE_H_
	#define GIN_FUNCTION_TEMPLATE_H_

	#include <stddef.h>
	#include <utility>

	#include "base/callback.h"
	#include "base/logging.h"
	#include "base/macros.h"
	#include "base/strings/strcat.h"
	#include "gin/arguments.h"
	#include "gin/converter.h"
	#include "gin/gin_export.h"
	#include "v8/include/v8.h"

	namespace gin {

	struct InvokerOptions {
	bool holder_is_first_argument = false;
	const char* holder_type = nullptr; // Null if unknown or not applicable.
	};

	namespace internal {

	template<typename T>
	struct CallbackParamTraits {
	typedef T LocalType;
	};
	template<typename T>
	struct CallbackParamTraits<const T&> {
	typedef T LocalType;
	};
	template<typename T>
	struct CallbackParamTraits<const T*> {
	typedef T* LocalType;
	};

	// CallbackHolder and CallbackHolderBase are used to pass a base::Callback from
	// CreateFunctionTemplate through v8 (via v8::FunctionTemplate) to
	// DispatchToCallback, where it is invoked.

	// This simple base class is used so that we can share a single object template
	// among every CallbackHolder instance.
	class GIN_EXPORT CallbackHolderBase {
	public:
	v8::Local<v8::External> GetHandle(v8::Isolate* isolate);

	protected:
	explicit CallbackHolderBase(v8::Isolate* isolate);
	virtual ~CallbackHolderBase();

	private:
	static void FirstWeakCallback(
	const v8::WeakCallbackInfo<CallbackHolderBase>& data);
	static void SecondWeakCallback(
	const v8::WeakCallbackInfo<CallbackHolderBase>& data);

	v8::Global<v8::External> v8_ref_;

	DISALLOW_COPY_AND_ASSIGN(CallbackHolderBase);
	};

	template<typename Sig>
	class CallbackHolder : public CallbackHolderBase {
	public:
	CallbackHolder(v8::Isolate* isolate,
	base::RepeatingCallback<Sig> callback,
	InvokerOptions invoker_options)
	: CallbackHolderBase(isolate),
	callback(std::move(callback)),
	invoker_options(std::move(invoker_options)) {}

	base::RepeatingCallback<Sig> callback;
	InvokerOptions invoker_options;

	private:
	~CallbackHolder() override {}

	DISALLOW_COPY_AND_ASSIGN(CallbackHolder);
	};

	template <typename T>
	bool GetNextArgument(Arguments* args,
	const InvokerOptions& invoker_options,
	bool is_first,
	T* result) {
	if (is_first && invoker_options.holder_is_first_argument) {
	return args->GetHolder(result);
	} else {
	return args->GetNext(result);
	}
	}

	// For advanced use cases, we allow callers to request the unparsed Arguments
	// object and poke around in it directly.
	inline bool GetNextArgument(Arguments* args,
	const InvokerOptions& invoker_options,
	bool is_first,
	Arguments* result) {
	result = args;
	return true;
	}
	inline bool GetNextArgument(Arguments* args,
	const InvokerOptions& invoker_options,
	bool is_first,
	Arguments** result) {
	*result = args;
	return true;
	}

	// It's common for clients to just need the isolate, so we make that easy.
	inline bool GetNextArgument(Arguments* args,
	const InvokerOptions& invoker_options,
	bool is_first,
	v8::Isolate** result) {
	*result = args->isolate();
	return true;
	}

	// Throws an error indicating conversion failure.
	GIN_EXPORT void ThrowConversionError(Arguments* args,
	const InvokerOptions& invoker_options,
	size_t index);

	// Class template for extracting and storing single argument for callback
	// at position \|index\|.
	template <size_t index, typename ArgType>
	struct ArgumentHolder {
	using ArgLocalType = typename CallbackParamTraits<ArgType>::LocalType;

	ArgLocalType value;
	bool ok;

	ArgumentHolder(Arguments* args, const InvokerOptions& invoker_options)
	: ok(GetNextArgument(args, invoker_options, index == 0, &value)) {
	if (!ok)
	ThrowConversionError(args, invoker_options, index);
	}
	};

	// Class template for converting arguments from JavaScript to C++ and running
	// the callback with them.
	template <typename IndicesType, typename... ArgTypes>
	class Invoker;

	template <size_t... indices, typename... ArgTypes>
	class Invoker<std::index_sequence<indices...>, ArgTypes...>
	: public ArgumentHolder<indices, ArgTypes>... {
	public:
	// Invoker<> inherits from ArgumentHolder<> for each argument.
	// C++ has always been strict about the class initialization order,
	// so it is guaranteed ArgumentHolders will be initialized (and thus, will
	// extract arguments from Arguments) in the right order.
	Invoker(Arguments* args, const InvokerOptions& invoker_options)
	: ArgumentHolder<indices, ArgTypes>(args, invoker_options)...,
	args_(args) {}

	bool IsOK() {
	return And(ArgumentHolder<indices, ArgTypes>::ok...);
	}

	template <typename ReturnType>
	void DispatchToCallback(
	base::RepeatingCallback<ReturnType(ArgTypes...)> callback) {
	args_->Return(callback.Run(ArgumentHolder<indices, ArgTypes>::value...));
	}

	// In C++, you can declare the function foo(void), but you can't pass a void
	// expression to foo. As a result, we must specialize the case of Callbacks
	// that have the void return type.
	void DispatchToCallback(base::RepeatingCallback<void(ArgTypes...)> callback) {
	callback.Run(ArgumentHolder<indices, ArgTypes>::value...);
	}

	private:
	static bool And() { return true; }
	template <typename... T>
	static bool And(bool arg1, T... args) {
	return arg1 && And(args...);
	}

	Arguments* args_;
	};

	// DispatchToCallback converts all the JavaScript arguments to C++ types and
	// invokes the base::Callback.
	template <typename Sig>
	struct Dispatcher {};

	template <typename ReturnType, typename... ArgTypes>
	struct Dispatcher<ReturnType(ArgTypes...)> {
	static void DispatchToCallbackImpl(Arguments* args) {
	v8::Local<v8::External> v8_holder;
	CHECK(args->GetData(&v8_holder));
	CallbackHolderBase* holder_base = reinterpret_cast<CallbackHolderBase*>(
	v8_holder->Value());

	typedef CallbackHolder<ReturnType(ArgTypes...)> HolderT;
	HolderT* holder = static_cast<HolderT*>(holder_base);

	using Indices = std::index_sequence_for<ArgTypes...>;
	Invoker<Indices, ArgTypes...> invoker(args, holder->invoker_options);
	if (invoker.IsOK())
	invoker.DispatchToCallback(holder->callback);
	}

	static void DispatchToCallback(
	const v8::FunctionCallbackInfo<v8::Value>& info) {
	Arguments args(info);
	DispatchToCallbackImpl(&args);
	}

	static void DispatchToCallbackForProperty(
	v8::Local<v8::Name>,
	const v8::PropertyCallbackInfo<v8::Value>& info) {
	Arguments args(info);
	DispatchToCallbackImpl(&args);
	}
	};

	} // namespace internal

	// CreateFunctionTemplate creates a v8::FunctionTemplate that will create
	// JavaScript functions that execute a provided C++ function or base::Callback.
	// JavaScript arguments are automatically converted via gin::Converter, as is
	// the return value of the C++ function, if any. \|invoker_options\| contains
	// additional parameters. If it contains a holder_type, it will be used to
	// provide a useful conversion error if the holder is the first argument. If not
	// provided, a generic invocation error will be used.
	//
	// NOTE: V8 caches FunctionTemplates for a lifetime of a web page for its own
	// internal reasons, thus it is generally a good idea to cache the template
	// returned by this function. Otherwise, repeated method invocations from JS
	// will create substantial memory leaks. See http://crbug.com/463487.
	template <typename Sig>
	v8::Local<v8::FunctionTemplate> CreateFunctionTemplate(
	v8::Isolate* isolate,
	base::RepeatingCallback<Sig> callback,
	InvokerOptions invoker_options = {}) {
	typedef internal::CallbackHolder<Sig> HolderT;
	HolderT* holder =
	new HolderT(isolate, std::move(callback), std::move(invoker_options));

	v8::Local<v8::FunctionTemplate> tmpl = v8::FunctionTemplate::New(
	isolate, &internal::Dispatcher<Sig>::DispatchToCallback,
	ConvertToV8<v8::Local<v8::External>>(isolate,
	holder->GetHandle(isolate)));
	tmpl->RemovePrototype();
	return tmpl;
	}

	// CreateDataPropertyCallback creates a v8::AccessorNameGetterCallback and
	// corresponding data value that will hold and execute the provided
	// base::RepeatingCallback, using automatic conversions similar to
	// \|CreateFunctionTemplate\|.
	//
	// It is expected that these will be passed to v8::Template::SetLazyDataProperty
	// or another similar function.
	template <typename Sig>
	std::pair<v8::AccessorNameGetterCallback, v8::Local<v8::Value>>
	CreateDataPropertyCallback(v8::Isolate* isolate,
	base::RepeatingCallback<Sig> callback,
	InvokerOptions invoker_options = {}) {
	typedef internal::CallbackHolder<Sig> HolderT;
	HolderT* holder =
	new HolderT(isolate, std::move(callback), std::move(invoker_options));
	return {&internal::Dispatcher<Sig>::DispatchToCallbackForProperty,
	ConvertToV8<v8::Local<v8::External>>(isolate,
	holder->GetHandle(isolate))};
	}

	} // namespace gin

	#endif // GIN_FUNCTION_TEMPLATE_H_