media/libdrm/mobile2/src/util/ustl-1.0/memlink.h - platform/frameworks/base - Git at Google

 // This file is part of the ustl library, an STL implementation.
 //
 // Copyright (C) 2005 by Mike Sharov <msharov@users.sourceforge.net>
 // This file is free software, distributed under the MIT License.
 //
 // memlink.h

 #ifndef MEMLINK_H_798D25827C8E322D2D7E734B169FF5FC
 #define MEMLINK_H_798D25827C8E322D2D7E734B169FF5FC

 #include "cmemlink.h"
 #include "ualgo.h"
 #include "uassert.h"

 namespace ustl {

 /// \class memlink memlink.h ustl.h
 /// \ingroup MemoryManagement
 ///
 /// \brief Wrapper for pointer to block with size.
 ///
 /// Use this class the way you would a pointer to an allocated unstructured block.
 /// The pointer and block size are available through member functions and cast operator.
 ///
 /// Example usage:
 /// \code
 ///     void* p = malloc (46721);
 ///     memlink a, b;
 ///     a.link (p, 46721);
 ///     assert (a.size() == 46721));
 ///     b = a;
 ///     assert (b.size() == 46721));
 ///     assert (b.begin() + 34 == a.begin + 34);
 ///     assert (0 == memcmp (a, b, 12));
 ///     a.fill (673, b, 42, 67);
 ///     b.erase (87, 12);
 /// \endcode
 ///
 class memlink : public cmemlink {
 public:
     typedef value_type*			pointer;
     typedef cmemlink::pointer		const_pointer;
     typedef cmemlink::const_iterator	const_iterator;
     typedef pointer			iterator;
     typedef const memlink&		rcself_t;
 public:
     inline		memlink (void)				: cmemlink() {}
     inline		memlink (void* p, size_type n)		: cmemlink (p, n) {}
     inline		memlink (const void* p, size_type n)	: cmemlink (p, n) {}
     inline		memlink (rcself_t l)			: cmemlink (l) {}
     inline explicit	memlink (const cmemlink& l)		: cmemlink (l) {}
     inline pointer	data (void)				{ return (const_cast<pointer>(cdata())); }
     inline iterator	begin (void)				{ return (iterator (data())); }
     inline iterator	iat (size_type i)			{ assert (i <= size()); return (begin() + i); }
     inline iterator	end (void)				{ return (iat (size())); }
     inline const_iterator	begin (void) const		{ return (cmemlink::begin()); }
     inline const_iterator	end (void) const		{ return (cmemlink::end()); }
     inline const_iterator	iat (size_type i) const		{ return (cmemlink::iat (i)); }
     size_type		writable_size (void) const		{ return (size()); }
     inline rcself_t	operator= (const cmemlink& l)		{ cmemlink::operator= (l); return (*this); }
     inline rcself_t	operator= (rcself_t l)			{ cmemlink::operator= (l); return (*this); }
     inline void		link (const void* p, size_type n)	{ cmemlink::link (p, n); }
     inline void		link (void* p, size_type n)		{ cmemlink::link (p, n); }
     inline void		link (const cmemlink& l)		{ cmemlink::link (l); }
     inline void		link (memlink& l)			{ cmemlink::link (l); }
 			OVERLOAD_POINTER_AND_SIZE_T_V2(link, void*)
 			OVERLOAD_POINTER_AND_SIZE_T_V2(link, const void*)
     inline void		link (const void* first, const void* last)	{ link (first, distance (first, last)); }
     inline void		link (void* first, void* last)		{ link (first, distance (first, last)); }
     inline void		relink (const void* p, size_type n)	{ cmemlink::relink (p, n); }
     inline void		relink (void* p, size_type n)		{ cmemlink::relink (p, n); }
     inline void		copy (const cmemlink& l)		{ copy (begin(), l.cdata(), l.size()); }
     inline void		copy (const void* p, size_type n)	{ copy (begin(), p, n); }
     void		copy (iterator offset, const void* p, size_type n);
     inline void		swap (memlink& l)			{ cmemlink::swap (l); }
     void		fill (iterator start, const void* p, size_type elsize, size_type elCount = 1);
     inline void		insert (iterator start, size_type size);
     inline void		erase (iterator start, size_type size);
     void		read (istream& is);
 };

 /// Shifts the data in the linked block from \p start to \p start + \p n.
 /// The contents of the uncovered bytes is undefined.
 inline void memlink::insert (iterator start, size_type n)
 {
     assert (data() || !n);
     assert (cmemlink::begin() || !n);
     assert (start >= begin() && start + n <= end());
     rotate (start, end() - n, end());
 }

 /// Shifts the data in the linked block from \p start + \p n to \p start.
 /// The contents of the uncovered bytes is undefined.
 inline void memlink::erase (iterator start, size_type n)
 {
     assert (data() || !n);
     assert (cmemlink::begin() || !n);
     assert (start >= begin() && start + n <= end());
     rotate (start, start + n, end());
 }

 /// Reads object \p l from stream \p is
 inline istream& operator>> (istream& is, memlink& l)
 {
     l.read (is);
     return (is);
 }

 /// Use with memlink-derived classes to allocate and link to stack space.
 #define alloca_link(m,n)	(m).link (alloca (n), (n))

 } // namespace ustl

 #endif
	// This file is part of the ustl library, an STL implementation.
	//
	// Copyright (C) 2005 by Mike Sharov <msharov@users.sourceforge.net>
	// This file is free software, distributed under the MIT License.
	//
	// memlink.h

	#ifndef MEMLINK_H_798D25827C8E322D2D7E734B169FF5FC
	#define MEMLINK_H_798D25827C8E322D2D7E734B169FF5FC

	#include "cmemlink.h"
	#include "ualgo.h"
	#include "uassert.h"

	namespace ustl {

	/// \class memlink memlink.h ustl.h
	/// \ingroup MemoryManagement
	///
	/// \brief Wrapper for pointer to block with size.
	///
	/// Use this class the way you would a pointer to an allocated unstructured block.
	/// The pointer and block size are available through member functions and cast operator.
	///
	/// Example usage:
	/// \code
	/// void* p = malloc (46721);
	/// memlink a, b;
	/// a.link (p, 46721);
	/// assert (a.size() == 46721));
	/// b = a;
	/// assert (b.size() == 46721));
	/// assert (b.begin() + 34 == a.begin + 34);
	/// assert (0 == memcmp (a, b, 12));
	/// a.fill (673, b, 42, 67);
	/// b.erase (87, 12);
	/// \endcode
	///
	class memlink : public cmemlink {
	public:
	typedef value_type* pointer;
	typedef cmemlink::pointer const_pointer;
	typedef cmemlink::const_iterator const_iterator;
	typedef pointer iterator;
	typedef const memlink& rcself_t;
	public:
	inline memlink (void) : cmemlink() {}
	inline memlink (void* p, size_type n) : cmemlink (p, n) {}
	inline memlink (const void* p, size_type n) : cmemlink (p, n) {}
	inline memlink (rcself_t l) : cmemlink (l) {}
	inline explicit memlink (const cmemlink& l) : cmemlink (l) {}
	inline pointer data (void) { return (const_cast<pointer>(cdata())); }
	inline iterator begin (void) { return (iterator (data())); }
	inline iterator iat (size_type i) { assert (i <= size()); return (begin() + i); }
	inline iterator end (void) { return (iat (size())); }
	inline const_iterator begin (void) const { return (cmemlink::begin()); }
	inline const_iterator end (void) const { return (cmemlink::end()); }
	inline const_iterator iat (size_type i) const { return (cmemlink::iat (i)); }
	size_type writable_size (void) const { return (size()); }
	inline rcself_t operator= (const cmemlink& l) { cmemlink::operator= (l); return (*this); }
	inline rcself_t operator= (rcself_t l) { cmemlink::operator= (l); return (*this); }
	inline void link (const void* p, size_type n) { cmemlink::link (p, n); }
	inline void link (void* p, size_type n) { cmemlink::link (p, n); }
	inline void link (const cmemlink& l) { cmemlink::link (l); }
	inline void link (memlink& l) { cmemlink::link (l); }
	OVERLOAD_POINTER_AND_SIZE_T_V2(link, void*)
	OVERLOAD_POINTER_AND_SIZE_T_V2(link, const void*)
	inline void link (const void* first, const void* last) { link (first, distance (first, last)); }
	inline void link (void* first, void* last) { link (first, distance (first, last)); }
	inline void relink (const void* p, size_type n) { cmemlink::relink (p, n); }
	inline void relink (void* p, size_type n) { cmemlink::relink (p, n); }
	inline void copy (const cmemlink& l) { copy (begin(), l.cdata(), l.size()); }
	inline void copy (const void* p, size_type n) { copy (begin(), p, n); }
	void copy (iterator offset, const void* p, size_type n);
	inline void swap (memlink& l) { cmemlink::swap (l); }
	void fill (iterator start, const void* p, size_type elsize, size_type elCount = 1);
	inline void insert (iterator start, size_type size);
	inline void erase (iterator start, size_type size);
	void read (istream& is);
	};

	/// Shifts the data in the linked block from \p start to \p start + \p n.
	/// The contents of the uncovered bytes is undefined.
	inline void memlink::insert (iterator start, size_type n)
	{
	assert (data() \|\| !n);
	assert (cmemlink::begin() \|\| !n);
	assert (start >= begin() && start + n <= end());
	rotate (start, end() - n, end());
	}

	/// Shifts the data in the linked block from \p start + \p n to \p start.
	/// The contents of the uncovered bytes is undefined.
	inline void memlink::erase (iterator start, size_type n)
	{
	assert (data() \|\| !n);
	assert (cmemlink::begin() \|\| !n);
	assert (start >= begin() && start + n <= end());
	rotate (start, start + n, end());
	}

	/// Reads object \p l from stream \p is
	inline istream& operator>> (istream& is, memlink& l)
	{
	l.read (is);
	return (is);
	}

	/// Use with memlink-derived classes to allocate and link to stack space.
	#define alloca_link(m,n) (m).link (alloca (n), (n))

	} // namespace ustl

	#endif