ui/base/class_property.h - chromium/src - Git at Google

 // Copyright 2017 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 UI_BASE_CLASS_PROPERTY_H_
 #define UI_BASE_CLASS_PROPERTY_H_

 #include <stdint.h>

 #include <map>
 #include <set>

 #include "base/time/time.h"
 #include "ui/base/ui_base_export.h"
 #include "ui/base/ui_base_types.h"

 // This header should be included by code that defines ClassProperties.
 //
 // To define a new ClassProperty:
 //
 //  #include "foo/foo_export.h"
 //  #include "ui/base/class_property.h"
 //
 //  DEFINE_EXPORTED_UI_CLASS_PROPERTY_TYPE(FOO_EXPORT, MyType)
 //  namespace foo {
 //    // Use this to define an exported property that is primitive,
 //    // or a pointer you don't want automatically deleted.
 //    DEFINE_UI_CLASS_PROPERTY_KEY(MyType, kMyKey, MyDefault)
 //
 //    // Use this to define an exported property whose value is a heap
 //    // allocated object, and has to be owned and freed by the class.
 //    DEFINE_OWNED_UI_CLASS_PROPERTY_KEY(gfx::Rect, kRestoreBoundsKey, nullptr)
 //
 //  }  // foo namespace
 //
 // To define a new type used for ClassProperty.
 //
 //  // outside all namespaces:
 //  DEFINE_EXPORTED_UI_CLASS_PROPERTY_TYPE(FOO_EXPORT, MyType)
 //
 // If a property type is not exported, use
 // DEFINE_UI_CLASS_PROPERTY_TYPE(MyType) which is a shorthand for
 // DEFINE_EXPORTED_UI_CLASS_PROPERTY_TYPE(, MyType).
 //
 // If the properties are used outside the file where they are defined
 // their accessor methods should also be declared in a suitable header
 // using DECLARE_EXPORTED_UI_CLASS_PROPERTY_TYPE(FOO_EXPORT, MyType)

 namespace ui {

 // Type of a function to delete a property that this window owns.
 using PropertyDeallocator = void(*)(int64_t value);

 template<typename T>
 struct ClassProperty {
   T default_value;
   const char* name;
   PropertyDeallocator deallocator;
 };

 namespace subtle {

 class PropertyHelper;

 }

 class UI_BASE_EXPORT PropertyHandler {
  public:
   PropertyHandler();
   PropertyHandler(PropertyHandler&& other);
   virtual ~PropertyHandler();
   PropertyHandler& operator=(PropertyHandler&& rhs) = default;

   // Takes the ownership of all the properties in |other|, overwriting any
   // similarly-keyed existing properties without affecting existing ones with
   // different keys.
   void AcquireAllPropertiesFrom(PropertyHandler&& other);

   // Sets the |value| of the given class |property|. Setting to the default
   // value (e.g., NULL) removes the property. The lifetime of objects set as
   // values of unowned properties is managed by the caller (owned properties are
   // freed when they are overwritten or cleared).
   template<typename T>
   void SetProperty(const ClassProperty<T>* property, T value);

   // Sets the |value| of the given class |property|, which must be an owned
   // property of pointer type. The property will be assigned a copy of |value|;
   // if no property object exists one will be allocated. T must support copy
   // construction and assignment.
   template <typename T>
   void SetProperty(const ClassProperty<T*>* property, const T& value);

   // Sets the |value| of the given class |property|, which must be an owned
   // property and of pointer type. The property will be move-assigned or move-
   // constructed from |value|; if no property object exists one will be
   // allocated. T must support at least copy (and ideally move) semantics.
   template <typename T>
   void SetProperty(const ClassProperty<T*>* property, T&& value);

   // Returns the value of the given class |property|.  Returns the
   // property-specific default value if the property was not previously set.
   template<typename T>
   T GetProperty(const ClassProperty<T>* property) const;

   // Sets the |property| to its default value. Useful for avoiding a cast when
   // setting to NULL.
   template<typename T>
   void ClearProperty(const ClassProperty<T>* property);

   // Returns the value of all properties with a non-default value.
   std::set<const void*> GetAllPropertyKeys() const;

  protected:
   friend class subtle::PropertyHelper;

   virtual void AfterPropertyChange(const void* key, int64_t old_value) {}
   void ClearProperties();

   // Called by the public {Set,Get,Clear}Property functions.
   int64_t SetPropertyInternal(const void* key,
                               const char* name,
                               PropertyDeallocator deallocator,
                               int64_t value,
                               int64_t default_value);
   int64_t GetPropertyInternal(const void* key, int64_t default_value) const;

  private:
   // Value struct to keep the name and deallocator for this property.
   // Key cannot be used for this purpose because it can be char* or
   // ClassProperty<>.
   struct Value {
     const char* name;
     int64_t value;
     PropertyDeallocator deallocator;
   };

   std::map<const void*, Value> prop_map_;
 };

 namespace {

 // No single new-style cast works for every conversion to/from int64_t, so we
 // need this helper class. A third specialization is needed for bool because
 // MSVC warning C4800 (forcing value to bool) is not suppressed by an explicit
 // cast (!).
 template<typename T>
 class ClassPropertyCaster {
  public:
   static int64_t ToInt64(T x) { return static_cast<int64_t>(x); }
   static T FromInt64(int64_t x) { return static_cast<T>(x); }
 };
 template<typename T>
 class ClassPropertyCaster<T*> {
  public:
   static int64_t ToInt64(T* x) { return reinterpret_cast<int64_t>(x); }
   static T* FromInt64(int64_t x) { return reinterpret_cast<T*>(x); }
 };
 template<>
 class ClassPropertyCaster<bool> {
  public:
   static int64_t ToInt64(bool x) { return static_cast<int64_t>(x); }
   static bool FromInt64(int64_t x) { return x != 0; }
 };
 template <>
 class ClassPropertyCaster<base::TimeDelta> {
  public:
   static int64_t ToInt64(base::TimeDelta x) { return x.InMicroseconds(); }
   static base::TimeDelta FromInt64(int64_t x) {
     return base::TimeDelta::FromMicroseconds(x);
   }
 };

 }  // namespace

 namespace subtle {

 class UI_BASE_EXPORT PropertyHelper {
  public:
   template<typename T>
   static void Set(::ui::PropertyHandler* handler,
                   const ::ui::ClassProperty<T>* property, T value) {
     int64_t old = handler->SetPropertyInternal(
         property, property->name,
         value == property->default_value ? nullptr : property->deallocator,
         ClassPropertyCaster<T>::ToInt64(value),
         ClassPropertyCaster<T>::ToInt64(property->default_value));
     if (property->deallocator &&
         old != ClassPropertyCaster<T>::ToInt64(property->default_value)) {
       (*property->deallocator)(old);
     }
   }
   template<typename T>
   static T Get(const ::ui::PropertyHandler* handler,
                const ::ui::ClassProperty<T>* property) {
     return ClassPropertyCaster<T>::FromInt64(handler->GetPropertyInternal(
         property, ClassPropertyCaster<T>::ToInt64(property->default_value)));
   }
   template<typename T>
   static void Clear(::ui::PropertyHandler* handler,
                     const ::ui::ClassProperty<T>* property) {
     handler->SetProperty(property, property->default_value);
   }
 };

 }  // namespace subtle

 // Template implementation is necessary in the .h file unless we want to break
 // [DECLARE|DEFINE]_EXPORTED_UI_CLASS_PROPERTY_TYPE() below into different
 // macros for owned and unowned properties; implementing them as pure templates
 // makes them nearly impossible to implement or use incorrectly at the cost of a
 // small amount of code duplication across libraries.

 template <typename T>
 void PropertyHandler::SetProperty(const ClassProperty<T*>* property,
                                   const T& value) {
   // Prevent additional heap allocation if possible.
   T* const old = GetProperty(property);
   if (old) {
     T temp(*old);
     *old = value;
     AfterPropertyChange(property, reinterpret_cast<int64_t>(&temp));
   } else {
     SetProperty(property, new T(value));
   }
 }

 template <typename T>
 void PropertyHandler::SetProperty(const ClassProperty<T*>* property,
                                   T&& value) {
   // Prevent additional heap allocation if possible.
   T* const old = GetProperty(property);
   if (old) {
     T temp(std::move(*old));
     *old = std::forward<T>(value);
     AfterPropertyChange(property, reinterpret_cast<int64_t>(&temp));
   } else {
     SetProperty(property, new T(std::forward<T>(value)));
   }
 }

 }  // namespace ui

 // Macros to declare the property getter/setter template functions.
 #define DECLARE_EXPORTED_UI_CLASS_PROPERTY_TYPE(EXPORT, T)                   \
   namespace ui {                                                             \
   template <>                                                                \
   EXPORT void PropertyHandler::SetProperty(const ClassProperty<T>* property, \
                                            T value);                         \
   template <>                                                                \
   EXPORT T                                                                   \
   PropertyHandler::GetProperty(const ClassProperty<T>* property) const;      \
   template <>                                                                \
   EXPORT void PropertyHandler::ClearProperty(                                \
       const ClassProperty<T>* property);                                     \
   }  // namespace ui

 // Macros to instantiate the property getter/setter template functions.
 #define DEFINE_EXPORTED_UI_CLASS_PROPERTY_TYPE(EXPORT, T)                    \
   namespace ui {                                                             \
   template <>                                                                \
   EXPORT void PropertyHandler::SetProperty(const ClassProperty<T>* property, \
                                            T value) {                        \
     subtle::PropertyHelper::Set<T>(this, property, value);                   \
   }                                                                          \
   template <>                                                                \
   EXPORT T                                                                   \
   PropertyHandler::GetProperty(const ClassProperty<T>* property) const {     \
     return subtle::PropertyHelper::Get<T>(this, property);                   \
   }                                                                          \
   template <>                                                                \
   EXPORT void PropertyHandler::ClearProperty(                                \
       const ClassProperty<T>* property) {                                    \
     subtle::PropertyHelper::Clear<T>(this, property);                        \
   }                                                                          \
   }  // namespace ui

 #define DEFINE_UI_CLASS_PROPERTY_TYPE(T) \
   DEFINE_EXPORTED_UI_CLASS_PROPERTY_TYPE(, T)

 #define DEFINE_UI_CLASS_PROPERTY_KEY(TYPE, NAME, DEFAULT)                    \
   static_assert(sizeof(TYPE) <= sizeof(int64_t), "property type too large"); \
   const ::ui::ClassProperty<TYPE> NAME##_Value = {DEFAULT, #NAME, nullptr};  \
   const ::ui::ClassProperty<TYPE>* const NAME = &NAME##_Value;

 #define DEFINE_OWNED_UI_CLASS_PROPERTY_KEY(TYPE, NAME, DEFAULT)         \
   namespace {                                                           \
   void Deallocator##NAME(int64_t p) {                                   \
     enum { type_must_be_complete = sizeof(TYPE) };                      \
     delete ::ui::ClassPropertyCaster<TYPE*>::FromInt64(p);              \
   }                                                                     \
   const ::ui::ClassProperty<TYPE*> NAME##_Value = {DEFAULT, #NAME,      \
                                                    &Deallocator##NAME}; \
   } /* namespace */                                                     \
   const ::ui::ClassProperty<TYPE*>* const NAME = &NAME##_Value;

 #endif  // UI_BASE_CLASS_PROPERTY_H_
	// Copyright 2017 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 UI_BASE_CLASS_PROPERTY_H_
	#define UI_BASE_CLASS_PROPERTY_H_

	#include <stdint.h>

	#include <map>
	#include <set>

	#include "base/time/time.h"
	#include "ui/base/ui_base_export.h"
	#include "ui/base/ui_base_types.h"

	// This header should be included by code that defines ClassProperties.
	//
	// To define a new ClassProperty:
	//
	// #include "foo/foo_export.h"
	// #include "ui/base/class_property.h"
	//
	// DEFINE_EXPORTED_UI_CLASS_PROPERTY_TYPE(FOO_EXPORT, MyType)
	// namespace foo {
	// // Use this to define an exported property that is primitive,
	// // or a pointer you don't want automatically deleted.
	// DEFINE_UI_CLASS_PROPERTY_KEY(MyType, kMyKey, MyDefault)
	//
	// // Use this to define an exported property whose value is a heap
	// // allocated object, and has to be owned and freed by the class.
	// DEFINE_OWNED_UI_CLASS_PROPERTY_KEY(gfx::Rect, kRestoreBoundsKey, nullptr)
	//
	// } // foo namespace
	//
	// To define a new type used for ClassProperty.
	//
	// // outside all namespaces:
	// DEFINE_EXPORTED_UI_CLASS_PROPERTY_TYPE(FOO_EXPORT, MyType)
	//
	// If a property type is not exported, use
	// DEFINE_UI_CLASS_PROPERTY_TYPE(MyType) which is a shorthand for
	// DEFINE_EXPORTED_UI_CLASS_PROPERTY_TYPE(, MyType).
	//
	// If the properties are used outside the file where they are defined
	// their accessor methods should also be declared in a suitable header
	// using DECLARE_EXPORTED_UI_CLASS_PROPERTY_TYPE(FOO_EXPORT, MyType)

	namespace ui {

	// Type of a function to delete a property that this window owns.
	using PropertyDeallocator = void(*)(int64_t value);

	template<typename T>
	struct ClassProperty {
	T default_value;
	const char* name;
	PropertyDeallocator deallocator;
	};

	namespace subtle {

	class PropertyHelper;

	}

	class UI_BASE_EXPORT PropertyHandler {
	public:
	PropertyHandler();
	PropertyHandler(PropertyHandler&& other);
	virtual ~PropertyHandler();
	PropertyHandler& operator=(PropertyHandler&& rhs) = default;

	// Takes the ownership of all the properties in \|other\|, overwriting any
	// similarly-keyed existing properties without affecting existing ones with
	// different keys.
	void AcquireAllPropertiesFrom(PropertyHandler&& other);

	// Sets the \|value\| of the given class \|property\|. Setting to the default
	// value (e.g., NULL) removes the property. The lifetime of objects set as
	// values of unowned properties is managed by the caller (owned properties are
	// freed when they are overwritten or cleared).
	template<typename T>
	void SetProperty(const ClassProperty<T>* property, T value);

	// Sets the \|value\| of the given class \|property\|, which must be an owned
	// property of pointer type. The property will be assigned a copy of \|value\|;
	// if no property object exists one will be allocated. T must support copy
	// construction and assignment.
	template <typename T>
	void SetProperty(const ClassProperty<T> property, const T& value);

	// Sets the \|value\| of the given class \|property\|, which must be an owned
	// property and of pointer type. The property will be move-assigned or move-
	// constructed from \|value\|; if no property object exists one will be
	// allocated. T must support at least copy (and ideally move) semantics.
	template <typename T>
	void SetProperty(const ClassProperty<T> property, T&& value);

	// Returns the value of the given class \|property\|. Returns the
	// property-specific default value if the property was not previously set.
	template<typename T>
	T GetProperty(const ClassProperty<T>* property) const;

	// Sets the \|property\| to its default value. Useful for avoiding a cast when
	// setting to NULL.
	template<typename T>
	void ClearProperty(const ClassProperty<T>* property);

	// Returns the value of all properties with a non-default value.
	std::set<const void*> GetAllPropertyKeys() const;

	protected:
	friend class subtle::PropertyHelper;

	virtual void AfterPropertyChange(const void* key, int64_t old_value) {}
	void ClearProperties();

	// Called by the public {Set,Get,Clear}Property functions.
	int64_t SetPropertyInternal(const void* key,
	const char* name,
	PropertyDeallocator deallocator,
	int64_t value,
	int64_t default_value);
	int64_t GetPropertyInternal(const void* key, int64_t default_value) const;

	private:
	// Value struct to keep the name and deallocator for this property.
	// Key cannot be used for this purpose because it can be char* or
	// ClassProperty<>.
	struct Value {
	const char* name;
	int64_t value;
	PropertyDeallocator deallocator;
	};

	std::map<const void*, Value> prop_map_;
	};

	namespace {

	// No single new-style cast works for every conversion to/from int64_t, so we
	// need this helper class. A third specialization is needed for bool because
	// MSVC warning C4800 (forcing value to bool) is not suppressed by an explicit
	// cast (!).
	template<typename T>
	class ClassPropertyCaster {
	public:
	static int64_t ToInt64(T x) { return static_cast<int64_t>(x); }
	static T FromInt64(int64_t x) { return static_cast<T>(x); }
	};
	template<typename T>
	class ClassPropertyCaster<T*> {
	public:
	static int64_t ToInt64(T* x) { return reinterpret_cast<int64_t>(x); }
	static T* FromInt64(int64_t x) { return reinterpret_cast<T*>(x); }
	};
	template<>
	class ClassPropertyCaster<bool> {
	public:
	static int64_t ToInt64(bool x) { return static_cast<int64_t>(x); }
	static bool FromInt64(int64_t x) { return x != 0; }
	};
	template <>
	class ClassPropertyCaster<base::TimeDelta> {
	public:
	static int64_t ToInt64(base::TimeDelta x) { return x.InMicroseconds(); }
	static base::TimeDelta FromInt64(int64_t x) {
	return base::TimeDelta::FromMicroseconds(x);
	}
	};

	} // namespace

	namespace subtle {

	class UI_BASE_EXPORT PropertyHelper {
	public:
	template<typename T>
	static void Set(::ui::PropertyHandler* handler,
	const ::ui::ClassProperty<T>* property, T value) {
	int64_t old = handler->SetPropertyInternal(
	property, property->name,
	value == property->default_value ? nullptr : property->deallocator,
	ClassPropertyCaster<T>::ToInt64(value),
	ClassPropertyCaster<T>::ToInt64(property->default_value));
	if (property->deallocator &&
	old != ClassPropertyCaster<T>::ToInt64(property->default_value)) {
	(*property->deallocator)(old);
	}
	}
	template<typename T>
	static T Get(const ::ui::PropertyHandler* handler,
	const ::ui::ClassProperty<T>* property) {
	return ClassPropertyCaster<T>::FromInt64(handler->GetPropertyInternal(
	property, ClassPropertyCaster<T>::ToInt64(property->default_value)));
	}
	template<typename T>
	static void Clear(::ui::PropertyHandler* handler,
	const ::ui::ClassProperty<T>* property) {
	handler->SetProperty(property, property->default_value);
	}
	};

	} // namespace subtle

	// Template implementation is necessary in the .h file unless we want to break
	// [DECLARE\|DEFINE]_EXPORTED_UI_CLASS_PROPERTY_TYPE() below into different
	// macros for owned and unowned properties; implementing them as pure templates
	// makes them nearly impossible to implement or use incorrectly at the cost of a
	// small amount of code duplication across libraries.

	template <typename T>
	void PropertyHandler::SetProperty(const ClassProperty<T> property,
	const T& value) {
	// Prevent additional heap allocation if possible.
	T* const old = GetProperty(property);
	if (old) {
	T temp(*old);
	*old = value;
	AfterPropertyChange(property, reinterpret_cast<int64_t>(&temp));
	} else {
	SetProperty(property, new T(value));
	}
	}

	template <typename T>
	void PropertyHandler::SetProperty(const ClassProperty<T> property,
	T&& value) {
	// Prevent additional heap allocation if possible.
	T* const old = GetProperty(property);
	if (old) {
	T temp(std::move(*old));
	*old = std::forward<T>(value);
	AfterPropertyChange(property, reinterpret_cast<int64_t>(&temp));
	} else {
	SetProperty(property, new T(std::forward<T>(value)));
	}
	}

	} // namespace ui

	// Macros to declare the property getter/setter template functions.
	#define DECLARE_EXPORTED_UI_CLASS_PROPERTY_TYPE(EXPORT, T) \
	namespace ui { \
	template <> \
	EXPORT void PropertyHandler::SetProperty(const ClassProperty<T>* property, \
	T value); \
	template <> \
	EXPORT T \
	PropertyHandler::GetProperty(const ClassProperty<T>* property) const; \
	template <> \
	EXPORT void PropertyHandler::ClearProperty( \
	const ClassProperty<T>* property); \
	} // namespace ui

	// Macros to instantiate the property getter/setter template functions.
	#define DEFINE_EXPORTED_UI_CLASS_PROPERTY_TYPE(EXPORT, T) \
	namespace ui { \
	template <> \
	EXPORT void PropertyHandler::SetProperty(const ClassProperty<T>* property, \
	T value) { \
	subtle::PropertyHelper::Set<T>(this, property, value); \
	} \
	template <> \
	EXPORT T \
	PropertyHandler::GetProperty(const ClassProperty<T>* property) const { \
	return subtle::PropertyHelper::Get<T>(this, property); \
	} \
	template <> \
	EXPORT void PropertyHandler::ClearProperty( \
	const ClassProperty<T>* property) { \
	subtle::PropertyHelper::Clear<T>(this, property); \
	} \
	} // namespace ui

	#define DEFINE_UI_CLASS_PROPERTY_TYPE(T) \
	DEFINE_EXPORTED_UI_CLASS_PROPERTY_TYPE(, T)

	#define DEFINE_UI_CLASS_PROPERTY_KEY(TYPE, NAME, DEFAULT) \
	static_assert(sizeof(TYPE) <= sizeof(int64_t), "property type too large"); \
	const ::ui::ClassProperty<TYPE> NAME##_Value = {DEFAULT, #NAME, nullptr}; \
	const ::ui::ClassProperty<TYPE>* const NAME = &NAME##_Value;

	#define DEFINE_OWNED_UI_CLASS_PROPERTY_KEY(TYPE, NAME, DEFAULT) \
	namespace { \
	void Deallocator##NAME(int64_t p) { \
	enum { type_must_be_complete = sizeof(TYPE) }; \
	delete ::ui::ClassPropertyCaster<TYPE*>::FromInt64(p); \
	} \
	const ::ui::ClassProperty<TYPE*> NAME##_Value = {DEFAULT, #NAME, \
	&Deallocator##NAME}; \
	} /* namespace */ \
	const ::ui::ClassProperty<TYPE> const NAME = &NAME##_Value;

	#endif // UI_BASE_CLASS_PROPERTY_H_