src/libcef_dll/cpptoc/cpptoc_ref_counted.h - cef - Git at Google

 // Copyright (c) 2009 The Chromium Embedded Framework 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 CEF_LIBCEF_DLL_CPPTOC_CPPTOC_REF_COUNTED_H_
 #define CEF_LIBCEF_DLL_CPPTOC_CPPTOC_REF_COUNTED_H_
 #pragma once

 #include "include/base/cef_logging.h"
 #include "include/base/cef_macros.h"
 #include "include/capi/cef_base_capi.h"
 #include "include/cef_base.h"
 #include "libcef_dll/wrapper_types.h"

 // Wrap a C++ class with a C structure.  This is used when the class
 // implementation exists on this side of the DLL boundary but will have methods
 // called from the other side of the DLL boundary.
 template <class ClassName, class BaseName, class StructName>
 class CefCppToCRefCounted : public CefBaseRefCounted {
  public:
   // Create a new wrapper instance and associated structure reference for
   // passing an object instance the other side.
   static StructName* Wrap(CefRefPtr<BaseName> c) {
     if (!c.get())
       return nullptr;

     // Wrap our object with the CefCppToCRefCounted class.
     ClassName* wrapper = new ClassName();
     wrapper->wrapper_struct_.object_ = c.get();
     // Add a reference to our wrapper object that will be released once our
     // structure arrives on the other side.
     wrapper->AddRef();
     // Return the structure pointer that can now be passed to the other side.
     return wrapper->GetStruct();
   }

   // Retrieve the underlying object instance for a structure reference passed
   // back from the other side.
   static CefRefPtr<BaseName> Unwrap(StructName* s) {
     if (!s)
       return nullptr;

     // Cast our structure to the wrapper structure type.
     WrapperStruct* wrapperStruct = GetWrapperStruct(s);

     // If the type does not match this object then we need to unwrap as the
     // derived type.
     if (wrapperStruct->type_ != kWrapperType)
       return UnwrapDerived(wrapperStruct->type_, s);

     // Add the underlying object instance to a smart pointer.
     CefRefPtr<BaseName> objectPtr(wrapperStruct->object_);
     // Release the reference to our wrapper object that was added before the
     // structure was passed back to us.
     wrapperStruct->wrapper_->Release();
     // Return the underlying object instance.
     return objectPtr;
   }

   // Retrieve the underlying object instance from our own structure reference
   // when the reference is passed as the required first parameter of a C API
   // function call. No explicit reference counting is done in this case.
   static CefRefPtr<BaseName> Get(StructName* s) {
     DCHECK(s);
     WrapperStruct* wrapperStruct = GetWrapperStruct(s);
     // Verify that the wrapper offset was calculated correctly.
     DCHECK_EQ(kWrapperType, wrapperStruct->type_);
     return wrapperStruct->object_;
   }

   // If returning the structure across the DLL boundary you should call
   // AddRef() on this CefCppToCRefCounted object. On the other side of the DLL
   // boundary, call UnderlyingRelease() on the wrapping CefCToCpp object.
   StructName* GetStruct() { return &wrapper_struct_.struct_; }

   // CefBaseRefCounted methods increment/decrement reference counts on both this
   // object and the underlying wrapper class.
   void AddRef() const {
     UnderlyingAddRef();
     ref_count_.AddRef();
   }
   bool Release() const {
     UnderlyingRelease();
     if (ref_count_.Release()) {
       delete this;
       return true;
     }
     return false;
   }
   bool HasOneRef() const { return UnderlyingHasOneRef(); }
   bool HasAtLeastOneRef() const { return UnderlyingHasAtLeastOneRef(); }

  protected:
   CefCppToCRefCounted() {
     wrapper_struct_.type_ = kWrapperType;
     wrapper_struct_.wrapper_ = this;
     memset(GetStruct(), 0, sizeof(StructName));

     cef_base_ref_counted_t* base =
         reinterpret_cast<cef_base_ref_counted_t*>(GetStruct());
     base->size = sizeof(StructName);
     base->add_ref = struct_add_ref;
     base->release = struct_release;
     base->has_one_ref = struct_has_one_ref;
     base->has_at_least_one_ref = struct_has_at_least_one_ref;
   }

   virtual ~CefCppToCRefCounted() {}

  private:
   // Used to associate this wrapper object, the underlying object instance and
   // the structure that will be passed to the other side.
   struct WrapperStruct {
     CefWrapperType type_;
     BaseName* object_;
     CefCppToCRefCounted<ClassName, BaseName, StructName>* wrapper_;
     StructName struct_;
   };

   static WrapperStruct* GetWrapperStruct(StructName* s) {
     // Offset using the WrapperStruct size instead of individual member sizes
     // to avoid problems due to platform/compiler differences in structure
     // padding.
     return reinterpret_cast<WrapperStruct*>(
         reinterpret_cast<char*>(s) -
         (sizeof(WrapperStruct) - sizeof(StructName)));
   }

   // Unwrap as the derived type.
   static CefRefPtr<BaseName> UnwrapDerived(CefWrapperType type, StructName* s);

   // Increment/decrement reference counts on only the underlying class.
   void UnderlyingAddRef() const { wrapper_struct_.object_->AddRef(); }
   void UnderlyingRelease() const { wrapper_struct_.object_->Release(); }
   bool UnderlyingHasOneRef() const {
     return wrapper_struct_.object_->HasOneRef();
   }
   bool UnderlyingHasAtLeastOneRef() const {
     return wrapper_struct_.object_->HasAtLeastOneRef();
   }

   static void CEF_CALLBACK struct_add_ref(cef_base_ref_counted_t* base) {
     DCHECK(base);
     if (!base)
       return;

     WrapperStruct* wrapperStruct =
         GetWrapperStruct(reinterpret_cast<StructName*>(base));
     // Verify that the wrapper offset was calculated correctly.
     DCHECK_EQ(kWrapperType, wrapperStruct->type_);

     wrapperStruct->wrapper_->AddRef();
   }

   static int CEF_CALLBACK struct_release(cef_base_ref_counted_t* base) {
     DCHECK(base);
     if (!base)
       return 0;

     WrapperStruct* wrapperStruct =
         GetWrapperStruct(reinterpret_cast<StructName*>(base));
     // Verify that the wrapper offset was calculated correctly.
     DCHECK_EQ(kWrapperType, wrapperStruct->type_);

     return wrapperStruct->wrapper_->Release();
   }

   static int CEF_CALLBACK struct_has_one_ref(cef_base_ref_counted_t* base) {
     DCHECK(base);
     if (!base)
       return 0;

     WrapperStruct* wrapperStruct =
         GetWrapperStruct(reinterpret_cast<StructName*>(base));
     // Verify that the wrapper offset was calculated correctly.
     DCHECK_EQ(kWrapperType, wrapperStruct->type_);

     return wrapperStruct->wrapper_->HasOneRef();
   }

   static int CEF_CALLBACK
   struct_has_at_least_one_ref(cef_base_ref_counted_t* base) {
     DCHECK(base);
     if (!base)
       return 0;

     WrapperStruct* wrapperStruct =
         GetWrapperStruct(reinterpret_cast<StructName*>(base));
     // Verify that the wrapper offset was calculated correctly.
     DCHECK_EQ(kWrapperType, wrapperStruct->type_);

     return wrapperStruct->wrapper_->HasAtLeastOneRef();
   }

   WrapperStruct wrapper_struct_;
   CefRefCount ref_count_;

   static CefWrapperType kWrapperType;

   DISALLOW_COPY_AND_ASSIGN(CefCppToCRefCounted);
 };

 #endif  // CEF_LIBCEF_DLL_CPPTOC_CPPTOC_REF_COUNTED_H_
	// Copyright (c) 2009 The Chromium Embedded Framework 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 CEF_LIBCEF_DLL_CPPTOC_CPPTOC_REF_COUNTED_H_
	#define CEF_LIBCEF_DLL_CPPTOC_CPPTOC_REF_COUNTED_H_
	#pragma once

	#include "include/base/cef_logging.h"
	#include "include/base/cef_macros.h"
	#include "include/capi/cef_base_capi.h"
	#include "include/cef_base.h"
	#include "libcef_dll/wrapper_types.h"

	// Wrap a C++ class with a C structure. This is used when the class
	// implementation exists on this side of the DLL boundary but will have methods
	// called from the other side of the DLL boundary.
	template <class ClassName, class BaseName, class StructName>
	class CefCppToCRefCounted : public CefBaseRefCounted {
	public:
	// Create a new wrapper instance and associated structure reference for
	// passing an object instance the other side.
	static StructName* Wrap(CefRefPtr<BaseName> c) {
	if (!c.get())
	return nullptr;

	// Wrap our object with the CefCppToCRefCounted class.
	ClassName* wrapper = new ClassName();
	wrapper->wrapper_struct_.object_ = c.get();
	// Add a reference to our wrapper object that will be released once our
	// structure arrives on the other side.
	wrapper->AddRef();
	// Return the structure pointer that can now be passed to the other side.
	return wrapper->GetStruct();
	}

	// Retrieve the underlying object instance for a structure reference passed
	// back from the other side.
	static CefRefPtr<BaseName> Unwrap(StructName* s) {
	if (!s)
	return nullptr;

	// Cast our structure to the wrapper structure type.
	WrapperStruct* wrapperStruct = GetWrapperStruct(s);

	// If the type does not match this object then we need to unwrap as the
	// derived type.
	if (wrapperStruct->type_ != kWrapperType)
	return UnwrapDerived(wrapperStruct->type_, s);

	// Add the underlying object instance to a smart pointer.
	CefRefPtr<BaseName> objectPtr(wrapperStruct->object_);
	// Release the reference to our wrapper object that was added before the
	// structure was passed back to us.
	wrapperStruct->wrapper_->Release();
	// Return the underlying object instance.
	return objectPtr;
	}

	// Retrieve the underlying object instance from our own structure reference
	// when the reference is passed as the required first parameter of a C API
	// function call. No explicit reference counting is done in this case.
	static CefRefPtr<BaseName> Get(StructName* s) {
	DCHECK(s);
	WrapperStruct* wrapperStruct = GetWrapperStruct(s);
	// Verify that the wrapper offset was calculated correctly.
	DCHECK_EQ(kWrapperType, wrapperStruct->type_);
	return wrapperStruct->object_;
	}

	// If returning the structure across the DLL boundary you should call
	// AddRef() on this CefCppToCRefCounted object. On the other side of the DLL
	// boundary, call UnderlyingRelease() on the wrapping CefCToCpp object.
	StructName* GetStruct() { return &wrapper_struct_.struct_; }

	// CefBaseRefCounted methods increment/decrement reference counts on both this
	// object and the underlying wrapper class.
	void AddRef() const {
	UnderlyingAddRef();
	ref_count_.AddRef();
	}
	bool Release() const {
	UnderlyingRelease();
	if (ref_count_.Release()) {
	delete this;
	return true;
	}
	return false;
	}
	bool HasOneRef() const { return UnderlyingHasOneRef(); }
	bool HasAtLeastOneRef() const { return UnderlyingHasAtLeastOneRef(); }

	protected:
	CefCppToCRefCounted() {
	wrapper_struct_.type_ = kWrapperType;
	wrapper_struct_.wrapper_ = this;
	memset(GetStruct(), 0, sizeof(StructName));

	cef_base_ref_counted_t* base =
	reinterpret_cast<cef_base_ref_counted_t*>(GetStruct());
	base->size = sizeof(StructName);
	base->add_ref = struct_add_ref;
	base->release = struct_release;
	base->has_one_ref = struct_has_one_ref;
	base->has_at_least_one_ref = struct_has_at_least_one_ref;
	}

	virtual ~CefCppToCRefCounted() {}

	private:
	// Used to associate this wrapper object, the underlying object instance and
	// the structure that will be passed to the other side.
	struct WrapperStruct {
	CefWrapperType type_;
	BaseName* object_;
	CefCppToCRefCounted<ClassName, BaseName, StructName>* wrapper_;
	StructName struct_;
	};

	static WrapperStruct* GetWrapperStruct(StructName* s) {
	// Offset using the WrapperStruct size instead of individual member sizes
	// to avoid problems due to platform/compiler differences in structure
	// padding.
	return reinterpret_cast<WrapperStruct*>(
	reinterpret_cast<char*>(s) -
	(sizeof(WrapperStruct) - sizeof(StructName)));
	}

	// Unwrap as the derived type.
	static CefRefPtr<BaseName> UnwrapDerived(CefWrapperType type, StructName* s);

	// Increment/decrement reference counts on only the underlying class.
	void UnderlyingAddRef() const { wrapper_struct_.object_->AddRef(); }
	void UnderlyingRelease() const { wrapper_struct_.object_->Release(); }
	bool UnderlyingHasOneRef() const {
	return wrapper_struct_.object_->HasOneRef();
	}
	bool UnderlyingHasAtLeastOneRef() const {
	return wrapper_struct_.object_->HasAtLeastOneRef();
	}

	static void CEF_CALLBACK struct_add_ref(cef_base_ref_counted_t* base) {
	DCHECK(base);
	if (!base)
	return;

	WrapperStruct* wrapperStruct =
	GetWrapperStruct(reinterpret_cast<StructName*>(base));
	// Verify that the wrapper offset was calculated correctly.
	DCHECK_EQ(kWrapperType, wrapperStruct->type_);

	wrapperStruct->wrapper_->AddRef();
	}

	static int CEF_CALLBACK struct_release(cef_base_ref_counted_t* base) {
	DCHECK(base);
	if (!base)
	return 0;

	WrapperStruct* wrapperStruct =
	GetWrapperStruct(reinterpret_cast<StructName*>(base));
	// Verify that the wrapper offset was calculated correctly.
	DCHECK_EQ(kWrapperType, wrapperStruct->type_);

	return wrapperStruct->wrapper_->Release();
	}

	static int CEF_CALLBACK struct_has_one_ref(cef_base_ref_counted_t* base) {
	DCHECK(base);
	if (!base)
	return 0;

	WrapperStruct* wrapperStruct =
	GetWrapperStruct(reinterpret_cast<StructName*>(base));
	// Verify that the wrapper offset was calculated correctly.
	DCHECK_EQ(kWrapperType, wrapperStruct->type_);

	return wrapperStruct->wrapper_->HasOneRef();
	}

	static int CEF_CALLBACK
	struct_has_at_least_one_ref(cef_base_ref_counted_t* base) {
	DCHECK(base);
	if (!base)
	return 0;

	WrapperStruct* wrapperStruct =
	GetWrapperStruct(reinterpret_cast<StructName*>(base));
	// Verify that the wrapper offset was calculated correctly.
	DCHECK_EQ(kWrapperType, wrapperStruct->type_);

	return wrapperStruct->wrapper_->HasAtLeastOneRef();
	}

	WrapperStruct wrapper_struct_;
	CefRefCount ref_count_;

	static CefWrapperType kWrapperType;

	DISALLOW_COPY_AND_ASSIGN(CefCppToCRefCounted);
	};

	#endif // CEF_LIBCEF_DLL_CPPTOC_CPPTOC_REF_COUNTED_H_