libutils/include/utils/TypeHelpers.h - third_party/android/platform/system/core - Git at Google

 /*
  * Copyright (C) 2005 The Android Open Source Project
  *
  * Licensed under the Apache License, Version 2.0 (the "License");
  * you may not use this file except in compliance with the License.
  * You may obtain a copy of the License at
  *
  *      http://www.apache.org/licenses/LICENSE-2.0
  *
  * Unless required by applicable law or agreed to in writing, software
  * distributed under the License is distributed on an "AS IS" BASIS,
  * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
  * See the License for the specific language governing permissions and
  * limitations under the License.
  */

 #ifndef ANDROID_TYPE_HELPERS_H
 #define ANDROID_TYPE_HELPERS_H

 #include <new>
 #include <type_traits>

 #include <stdint.h>
 #include <string.h>
 #include <sys/types.h>

 // ---------------------------------------------------------------------------

 namespace android {

 /*
  * Types traits
  */

 template <typename T> struct trait_trivial_ctor { enum { value = false }; };
 template <typename T> struct trait_trivial_dtor { enum { value = false }; };
 template <typename T> struct trait_trivial_copy { enum { value = false }; };
 template <typename T> struct trait_trivial_move { enum { value = false }; };
 template <typename T> struct trait_pointer      { enum { value = false }; };
 template <typename T> struct trait_pointer<T*>  { enum { value = true }; };

 template <typename TYPE>
 struct traits {
     enum {
         // whether this type is a pointer
         is_pointer          = trait_pointer<TYPE>::value,
         // whether this type's constructor is a no-op
         has_trivial_ctor    = is_pointer || trait_trivial_ctor<TYPE>::value,
         // whether this type's destructor is a no-op
         has_trivial_dtor    = is_pointer || trait_trivial_dtor<TYPE>::value,
         // whether this type type can be copy-constructed with memcpy
         has_trivial_copy    = is_pointer || trait_trivial_copy<TYPE>::value,
         // whether this type can be moved with memmove
         has_trivial_move    = is_pointer || trait_trivial_move<TYPE>::value
     };
 };

 template <typename T, typename U>
 struct aggregate_traits {
     enum {
         is_pointer          = false,
         has_trivial_ctor    =
             traits<T>::has_trivial_ctor && traits<U>::has_trivial_ctor,
         has_trivial_dtor    =
             traits<T>::has_trivial_dtor && traits<U>::has_trivial_dtor,
         has_trivial_copy    =
             traits<T>::has_trivial_copy && traits<U>::has_trivial_copy,
         has_trivial_move    =
             traits<T>::has_trivial_move && traits<U>::has_trivial_move
     };
 };

 #define ANDROID_TRIVIAL_CTOR_TRAIT( T ) \
     template<> struct trait_trivial_ctor< T >   { enum { value = true }; };

 #define ANDROID_TRIVIAL_DTOR_TRAIT( T ) \
     template<> struct trait_trivial_dtor< T >   { enum { value = true }; };

 #define ANDROID_TRIVIAL_COPY_TRAIT( T ) \
     template<> struct trait_trivial_copy< T >   { enum { value = true }; };

 #define ANDROID_TRIVIAL_MOVE_TRAIT( T ) \
     template<> struct trait_trivial_move< T >   { enum { value = true }; };

 #define ANDROID_BASIC_TYPES_TRAITS( T ) \
     ANDROID_TRIVIAL_CTOR_TRAIT( T ) \
     ANDROID_TRIVIAL_DTOR_TRAIT( T ) \
     ANDROID_TRIVIAL_COPY_TRAIT( T ) \
     ANDROID_TRIVIAL_MOVE_TRAIT( T )

 // ---------------------------------------------------------------------------

 /*
  * basic types traits
  */

 ANDROID_BASIC_TYPES_TRAITS( void )
 ANDROID_BASIC_TYPES_TRAITS( bool )
 ANDROID_BASIC_TYPES_TRAITS( char )
 ANDROID_BASIC_TYPES_TRAITS( unsigned char )
 ANDROID_BASIC_TYPES_TRAITS( short )
 ANDROID_BASIC_TYPES_TRAITS( unsigned short )
 ANDROID_BASIC_TYPES_TRAITS( int )
 ANDROID_BASIC_TYPES_TRAITS( unsigned int )
 ANDROID_BASIC_TYPES_TRAITS( long )
 ANDROID_BASIC_TYPES_TRAITS( unsigned long )
 ANDROID_BASIC_TYPES_TRAITS( long long )
 ANDROID_BASIC_TYPES_TRAITS( unsigned long long )
 ANDROID_BASIC_TYPES_TRAITS( float )
 ANDROID_BASIC_TYPES_TRAITS( double )

 // ---------------------------------------------------------------------------


 /*
  * compare and order types
  */

 template<typename TYPE> inline
 int strictly_order_type(const TYPE& lhs, const TYPE& rhs) {
     return (lhs < rhs) ? 1 : 0;
 }

 template<typename TYPE> inline
 int compare_type(const TYPE& lhs, const TYPE& rhs) {
     return strictly_order_type(rhs, lhs) - strictly_order_type(lhs, rhs);
 }

 /*
  * create, destroy, copy and move types...
  */

 template<typename TYPE> inline
 void construct_type(TYPE* p, size_t n) {
     if (!traits<TYPE>::has_trivial_ctor) {
         while (n > 0) {
             n--;
             new(p++) TYPE;
         }
     }
 }

 template<typename TYPE> inline
 void destroy_type(TYPE* p, size_t n) {
     if (!traits<TYPE>::has_trivial_dtor) {
         while (n > 0) {
             n--;
             p->~TYPE();
             p++;
         }
     }
 }

 template<typename TYPE>
 typename std::enable_if<traits<TYPE>::has_trivial_copy>::type
 inline
 copy_type(TYPE* d, const TYPE* s, size_t n) {
     memcpy(d,s,n*sizeof(TYPE));
 }

 template<typename TYPE>
 typename std::enable_if<!traits<TYPE>::has_trivial_copy>::type
 inline
 copy_type(TYPE* d, const TYPE* s, size_t n) {
     while (n > 0) {
         n--;
         new(d) TYPE(*s);
         d++, s++;
     }
 }

 template<typename TYPE> inline
 void splat_type(TYPE* where, const TYPE* what, size_t n) {
     if (!traits<TYPE>::has_trivial_copy) {
         while (n > 0) {
             n--;
             new(where) TYPE(*what);
             where++;
         }
     } else {
         while (n > 0) {
             n--;
             *where++ = *what;
         }
     }
 }

 template<typename TYPE>
 struct use_trivial_move : public std::integral_constant<bool,
     (traits<TYPE>::has_trivial_dtor && traits<TYPE>::has_trivial_copy)
     || traits<TYPE>::has_trivial_move
 > {};

 template<typename TYPE>
 typename std::enable_if<use_trivial_move<TYPE>::value>::type
 inline
 move_forward_type(TYPE* d, const TYPE* s, size_t n = 1) {
     memmove(d, s, n*sizeof(TYPE));
 }

 template<typename TYPE>
 typename std::enable_if<!use_trivial_move<TYPE>::value>::type
 inline
 move_forward_type(TYPE* d, const TYPE* s, size_t n = 1) {
     d += n;
     s += n;
     while (n > 0) {
         n--;
         --d, --s;
         if (!traits<TYPE>::has_trivial_copy) {
             new(d) TYPE(*s);
         } else {
             *d = *s;
         }
         if (!traits<TYPE>::has_trivial_dtor) {
             s->~TYPE();
         }
     }
 }

 template<typename TYPE>
 typename std::enable_if<use_trivial_move<TYPE>::value>::type
 inline
 move_backward_type(TYPE* d, const TYPE* s, size_t n = 1) {
     memmove(d, s, n*sizeof(TYPE));
 }

 template<typename TYPE>
 typename std::enable_if<!use_trivial_move<TYPE>::value>::type
 inline
 move_backward_type(TYPE* d, const TYPE* s, size_t n = 1) {
     while (n > 0) {
         n--;
         if (!traits<TYPE>::has_trivial_copy) {
             new(d) TYPE(*s);
         } else {
             *d = *s;
         }
         if (!traits<TYPE>::has_trivial_dtor) {
             s->~TYPE();
         }
         d++, s++;
     }
 }

 // ---------------------------------------------------------------------------

 /*
  * a key/value pair
  */

 template <typename KEY, typename VALUE>
 struct key_value_pair_t {
     typedef KEY key_t;
     typedef VALUE value_t;

     KEY     key;
     VALUE   value;
     key_value_pair_t() { }
     key_value_pair_t(const key_value_pair_t& o) : key(o.key), value(o.value) { }
     key_value_pair_t& operator=(const key_value_pair_t& o) {
         key = o.key;
         value = o.value;
         return *this;
     }
     key_value_pair_t(const KEY& k, const VALUE& v) : key(k), value(v)  { }
     explicit key_value_pair_t(const KEY& k) : key(k) { }
     inline bool operator < (const key_value_pair_t& o) const {
         return strictly_order_type(key, o.key);
     }
     inline const KEY& getKey() const {
         return key;
     }
     inline const VALUE& getValue() const {
         return value;
     }
 };

 template <typename K, typename V>
 struct trait_trivial_ctor< key_value_pair_t<K, V> >
 { enum { value = aggregate_traits<K,V>::has_trivial_ctor }; };
 template <typename K, typename V>
 struct trait_trivial_dtor< key_value_pair_t<K, V> >
 { enum { value = aggregate_traits<K,V>::has_trivial_dtor }; };
 template <typename K, typename V>
 struct trait_trivial_copy< key_value_pair_t<K, V> >
 { enum { value = aggregate_traits<K,V>::has_trivial_copy }; };
 template <typename K, typename V>
 struct trait_trivial_move< key_value_pair_t<K, V> >
 { enum { value = aggregate_traits<K,V>::has_trivial_move }; };

 // ---------------------------------------------------------------------------

 /*
  * Hash codes.
  */
 typedef uint32_t hash_t;

 template <typename TKey>
 hash_t hash_type(const TKey& key);

 /* Built-in hash code specializations */
 #define ANDROID_INT32_HASH(T) \
         template <> inline hash_t hash_type(const T& value) { return hash_t(value); }
 #define ANDROID_INT64_HASH(T) \
         template <> inline hash_t hash_type(const T& value) { \
                 return hash_t((value >> 32) ^ value); }
 #define ANDROID_REINTERPRET_HASH(T, R) \
         template <> inline hash_t hash_type(const T& value) { \
             R newValue; \
             static_assert(sizeof(newValue) == sizeof(value), "size mismatch"); \
             memcpy(&newValue, &value, sizeof(newValue)); \
             return hash_type(newValue); \
         }

 ANDROID_INT32_HASH(bool)
 ANDROID_INT32_HASH(int8_t)
 ANDROID_INT32_HASH(uint8_t)
 ANDROID_INT32_HASH(int16_t)
 ANDROID_INT32_HASH(uint16_t)
 ANDROID_INT32_HASH(int32_t)
 ANDROID_INT32_HASH(uint32_t)
 ANDROID_INT64_HASH(int64_t)
 ANDROID_INT64_HASH(uint64_t)
 ANDROID_REINTERPRET_HASH(float, uint32_t)
 ANDROID_REINTERPRET_HASH(double, uint64_t)

 template <typename T> inline hash_t hash_type(T* const & value) {
     return hash_type(uintptr_t(value));
 }

 }  // namespace android

 // ---------------------------------------------------------------------------

 #endif // ANDROID_TYPE_HELPERS_H
	/*
	* Copyright (C) 2005 The Android Open Source Project
	*
	* Licensed under the Apache License, Version 2.0 (the "License");
	* you may not use this file except in compliance with the License.
	* You may obtain a copy of the License at
	*
	* http://www.apache.org/licenses/LICENSE-2.0
	*
	* Unless required by applicable law or agreed to in writing, software
	* distributed under the License is distributed on an "AS IS" BASIS,
	* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
	* See the License for the specific language governing permissions and
	* limitations under the License.
	*/

	#ifndef ANDROID_TYPE_HELPERS_H
	#define ANDROID_TYPE_HELPERS_H

	#include <new>
	#include <type_traits>

	#include <stdint.h>
	#include <string.h>
	#include <sys/types.h>

	// ---------------------------------------------------------------------------

	namespace android {

	/*
	* Types traits
	*/

	template <typename T> struct trait_trivial_ctor { enum { value = false }; };
	template <typename T> struct trait_trivial_dtor { enum { value = false }; };
	template <typename T> struct trait_trivial_copy { enum { value = false }; };
	template <typename T> struct trait_trivial_move { enum { value = false }; };
	template <typename T> struct trait_pointer { enum { value = false }; };
	template <typename T> struct trait_pointer<T*> { enum { value = true }; };

	template <typename TYPE>
	struct traits {
	enum {
	// whether this type is a pointer
	is_pointer = trait_pointer<TYPE>::value,
	// whether this type's constructor is a no-op
	has_trivial_ctor = is_pointer \|\| trait_trivial_ctor<TYPE>::value,
	// whether this type's destructor is a no-op
	has_trivial_dtor = is_pointer \|\| trait_trivial_dtor<TYPE>::value,
	// whether this type type can be copy-constructed with memcpy
	has_trivial_copy = is_pointer \|\| trait_trivial_copy<TYPE>::value,
	// whether this type can be moved with memmove
	has_trivial_move = is_pointer \|\| trait_trivial_move<TYPE>::value
	};
	};

	template <typename T, typename U>
	struct aggregate_traits {
	enum {
	is_pointer = false,
	has_trivial_ctor =
	traits<T>::has_trivial_ctor && traits<U>::has_trivial_ctor,
	has_trivial_dtor =
	traits<T>::has_trivial_dtor && traits<U>::has_trivial_dtor,
	has_trivial_copy =
	traits<T>::has_trivial_copy && traits<U>::has_trivial_copy,
	has_trivial_move =
	traits<T>::has_trivial_move && traits<U>::has_trivial_move
	};
	};

	#define ANDROID_TRIVIAL_CTOR_TRAIT( T ) \
	template<> struct trait_trivial_ctor< T > { enum { value = true }; };

	#define ANDROID_TRIVIAL_DTOR_TRAIT( T ) \
	template<> struct trait_trivial_dtor< T > { enum { value = true }; };

	#define ANDROID_TRIVIAL_COPY_TRAIT( T ) \
	template<> struct trait_trivial_copy< T > { enum { value = true }; };

	#define ANDROID_TRIVIAL_MOVE_TRAIT( T ) \
	template<> struct trait_trivial_move< T > { enum { value = true }; };

	#define ANDROID_BASIC_TYPES_TRAITS( T ) \
	ANDROID_TRIVIAL_CTOR_TRAIT( T ) \
	ANDROID_TRIVIAL_DTOR_TRAIT( T ) \
	ANDROID_TRIVIAL_COPY_TRAIT( T ) \
	ANDROID_TRIVIAL_MOVE_TRAIT( T )

	// ---------------------------------------------------------------------------

	/*
	* basic types traits
	*/

	ANDROID_BASIC_TYPES_TRAITS( void )
	ANDROID_BASIC_TYPES_TRAITS( bool )
	ANDROID_BASIC_TYPES_TRAITS( char )
	ANDROID_BASIC_TYPES_TRAITS( unsigned char )
	ANDROID_BASIC_TYPES_TRAITS( short )
	ANDROID_BASIC_TYPES_TRAITS( unsigned short )
	ANDROID_BASIC_TYPES_TRAITS( int )
	ANDROID_BASIC_TYPES_TRAITS( unsigned int )
	ANDROID_BASIC_TYPES_TRAITS( long )
	ANDROID_BASIC_TYPES_TRAITS( unsigned long )
	ANDROID_BASIC_TYPES_TRAITS( long long )
	ANDROID_BASIC_TYPES_TRAITS( unsigned long long )
	ANDROID_BASIC_TYPES_TRAITS( float )
	ANDROID_BASIC_TYPES_TRAITS( double )

	// ---------------------------------------------------------------------------


	/*
	* compare and order types
	*/

	template<typename TYPE> inline
	int strictly_order_type(const TYPE& lhs, const TYPE& rhs) {
	return (lhs < rhs) ? 1 : 0;
	}

	template<typename TYPE> inline
	int compare_type(const TYPE& lhs, const TYPE& rhs) {
	return strictly_order_type(rhs, lhs) - strictly_order_type(lhs, rhs);
	}

	/*
	* create, destroy, copy and move types...
	*/

	template<typename TYPE> inline
	void construct_type(TYPE* p, size_t n) {
	if (!traits<TYPE>::has_trivial_ctor) {
	while (n > 0) {
	n--;
	new(p++) TYPE;
	}
	}
	}

	template<typename TYPE> inline
	void destroy_type(TYPE* p, size_t n) {
	if (!traits<TYPE>::has_trivial_dtor) {
	while (n > 0) {
	n--;
	p->~TYPE();
	p++;
	}
	}
	}

	template<typename TYPE>
	typename std::enable_if<traits<TYPE>::has_trivial_copy>::type
	inline
	copy_type(TYPE* d, const TYPE* s, size_t n) {
	memcpy(d,s,n*sizeof(TYPE));
	}

	template<typename TYPE>
	typename std::enable_if<!traits<TYPE>::has_trivial_copy>::type
	inline
	copy_type(TYPE* d, const TYPE* s, size_t n) {
	while (n > 0) {
	n--;
	new(d) TYPE(*s);
	d++, s++;
	}
	}

	template<typename TYPE> inline
	void splat_type(TYPE* where, const TYPE* what, size_t n) {
	if (!traits<TYPE>::has_trivial_copy) {
	while (n > 0) {
	n--;
	new(where) TYPE(*what);
	where++;
	}
	} else {
	while (n > 0) {
	n--;
	where++ = what;
	}
	}
	}

	template<typename TYPE>
	struct use_trivial_move : public std::integral_constant<bool,
	(traits<TYPE>::has_trivial_dtor && traits<TYPE>::has_trivial_copy)
	\|\| traits<TYPE>::has_trivial_move
	> {};

	template<typename TYPE>
	typename std::enable_if<use_trivial_move<TYPE>::value>::type
	inline
	move_forward_type(TYPE* d, const TYPE* s, size_t n = 1) {
	memmove(d, s, n*sizeof(TYPE));
	}

	template<typename TYPE>
	typename std::enable_if<!use_trivial_move<TYPE>::value>::type
	inline
	move_forward_type(TYPE* d, const TYPE* s, size_t n = 1) {
	d += n;
	s += n;
	while (n > 0) {
	n--;
	--d, --s;
	if (!traits<TYPE>::has_trivial_copy) {
	new(d) TYPE(*s);
	} else {
	d = s;
	}
	if (!traits<TYPE>::has_trivial_dtor) {
	s->~TYPE();
	}
	}
	}

	template<typename TYPE>
	typename std::enable_if<use_trivial_move<TYPE>::value>::type
	inline
	move_backward_type(TYPE* d, const TYPE* s, size_t n = 1) {
	memmove(d, s, n*sizeof(TYPE));
	}

	template<typename TYPE>
	typename std::enable_if<!use_trivial_move<TYPE>::value>::type
	inline
	move_backward_type(TYPE* d, const TYPE* s, size_t n = 1) {
	while (n > 0) {
	n--;
	if (!traits<TYPE>::has_trivial_copy) {
	new(d) TYPE(*s);
	} else {
	d = s;
	}
	if (!traits<TYPE>::has_trivial_dtor) {
	s->~TYPE();
	}
	d++, s++;
	}
	}

	// ---------------------------------------------------------------------------

	/*
	* a key/value pair
	*/

	template <typename KEY, typename VALUE>
	struct key_value_pair_t {
	typedef KEY key_t;
	typedef VALUE value_t;

	KEY key;
	VALUE value;
	key_value_pair_t() { }
	key_value_pair_t(const key_value_pair_t& o) : key(o.key), value(o.value) { }
	key_value_pair_t& operator=(const key_value_pair_t& o) {
	key = o.key;
	value = o.value;
	return *this;
	}
	key_value_pair_t(const KEY& k, const VALUE& v) : key(k), value(v) { }
	explicit key_value_pair_t(const KEY& k) : key(k) { }
	inline bool operator < (const key_value_pair_t& o) const {
	return strictly_order_type(key, o.key);
	}
	inline const KEY& getKey() const {
	return key;
	}
	inline const VALUE& getValue() const {
	return value;
	}
	};

	template <typename K, typename V>
	struct trait_trivial_ctor< key_value_pair_t<K, V> >
	{ enum { value = aggregate_traits<K,V>::has_trivial_ctor }; };
	template <typename K, typename V>
	struct trait_trivial_dtor< key_value_pair_t<K, V> >
	{ enum { value = aggregate_traits<K,V>::has_trivial_dtor }; };
	template <typename K, typename V>
	struct trait_trivial_copy< key_value_pair_t<K, V> >
	{ enum { value = aggregate_traits<K,V>::has_trivial_copy }; };
	template <typename K, typename V>
	struct trait_trivial_move< key_value_pair_t<K, V> >
	{ enum { value = aggregate_traits<K,V>::has_trivial_move }; };

	// ---------------------------------------------------------------------------

	/*
	* Hash codes.
	*/
	typedef uint32_t hash_t;

	template <typename TKey>
	hash_t hash_type(const TKey& key);

	/* Built-in hash code specializations */
	#define ANDROID_INT32_HASH(T) \
	template <> inline hash_t hash_type(const T& value) { return hash_t(value); }
	#define ANDROID_INT64_HASH(T) \
	template <> inline hash_t hash_type(const T& value) { \
	return hash_t((value >> 32) ^ value); }
	#define ANDROID_REINTERPRET_HASH(T, R) \
	template <> inline hash_t hash_type(const T& value) { \
	R newValue; \
	static_assert(sizeof(newValue) == sizeof(value), "size mismatch"); \
	memcpy(&newValue, &value, sizeof(newValue)); \
	return hash_type(newValue); \
	}

	ANDROID_INT32_HASH(bool)
	ANDROID_INT32_HASH(int8_t)
	ANDROID_INT32_HASH(uint8_t)
	ANDROID_INT32_HASH(int16_t)
	ANDROID_INT32_HASH(uint16_t)
	ANDROID_INT32_HASH(int32_t)
	ANDROID_INT32_HASH(uint32_t)
	ANDROID_INT64_HASH(int64_t)
	ANDROID_INT64_HASH(uint64_t)
	ANDROID_REINTERPRET_HASH(float, uint32_t)
	ANDROID_REINTERPRET_HASH(double, uint64_t)

	template <typename T> inline hash_t hash_type(T* const & value) {
	return hash_type(uintptr_t(value));
	}

	} // namespace android

	// ---------------------------------------------------------------------------

	#endif // ANDROID_TYPE_HELPERS_H