media/libdrm/mobile2/src/util/ustl-1.0/mostream.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.
 //
 // mostream.h

 #ifndef MOSTREAM_H_24A8C5397E0848216573E5670930FC9A
 #define MOSTREAM_H_24A8C5397E0848216573E5670930FC9A

 #include "memlink.h"
 #include "uassert.h"
 #include "uexception.h"
 #include "utf8.h"
 #include "uios.h"
 #include <typeinfo>

 namespace ustl {

 class istream;
 class string;

 /// \class ostream mostream.h ustl.h
 /// \ingroup BinaryStreams
 ///
 /// \brief Helper class to write packed binary streams.
 ///
 /// This class contains a set of functions to write integral types into an
 /// unstructured memory block. Packing binary file data can be done this
 /// way, for instance. aligning the data is your responsibility, and can
 /// be accomplished by proper ordering of writes and by calling \ref ostream::align.
 /// Unaligned access is usually slower by orders of magnitude and,
 /// on some architectures, such as PowerPC, can cause your program to crash.
 /// Therefore, all write functions have asserts to check alignment.
 /// See \ref istream documentation for rules on designing your data format.
 /// Overwriting the end of the stream will also cause a crash (an assert in
 /// debug builds). Oh, and don't be intimidated by the size of the inlines
 /// here. In the assembly code the compiler will usually chop everything down
 /// to five instructions each.
 ///
 /// Example code:
 /// \code
 ///     memblock b;
 ///     ostream os (b);
 ///     os << boolVar << ios::talign<int>();
 ///     os << intVar << floatVar;
 ///     os.write (binaryData, binaryDataSize);
 ///     os.align();
 ///     b.resize (os.pos());
 ///	b.write_file ("test.file");
 /// \endcode
 ///
 class ostream : public memlink, public ios_base {
 public:
 			ostream (void);
 			ostream (void* p, size_type n);
     explicit		ostream (const memlink& source);
     inline iterator	end (void)			{ return (memlink::end()); }
     inline const_iterator	end (void) const	{ return (memlink::end()); }
     inline void		seek (uoff_t newPos);
     inline void		iseek (const_iterator newPos);
     inline void		skip (size_type nBytes);
     inline uoff_t	pos (void) const	{ return (m_Pos); }
     inline iterator	ipos (void)		{ return (begin() + pos()); }
     inline const_iterator ipos (void) const	{ return (begin() + pos()); }
     inline size_type	remaining (void) const;
     inline bool		aligned (size_type grain = c_DefaultAlignment) const;
     void		verify_remaining (const char* op, const char* type, size_t n) const;
     inline size_type	align_size (size_type grain = c_DefaultAlignment) const;
     void		align (size_type grain = c_DefaultAlignment);
     void		write (const void* buffer, size_type size);
     inline void		write (const cmemlink& buf);
     void		write_strz (const char* str);
     void		read (istream& is);
     inline void		write (ostream& os) const	{ os.write (begin(), pos()); }
     void		text_write (ostringstream& os) const;
     inline size_t	stream_size (void) const	{ return (pos()); }
     void		insert (iterator start, size_type size);
     void		erase (iterator start, size_type size);
     void		swap (ostream& os);
     template <typename T>
     inline void		iwrite (const T& v);
     inline virtual size_type	overflow (size_type = 1){ return (remaining()); }
     virtual void	unlink (void);
     inline void		link (void* p, size_type n)	{ memlink::link (p, n); }
     inline void		link (memlink& l)		{ memlink::link (l.data(), l.writable_size()); }
     inline void		link (void* f, void* l)		{ memlink::link (f, l); }
 			OVERLOAD_POINTER_AND_SIZE_T_V2(link, void*)
     inline void		relink (void* p, size_type n)	{ memlink::relink (p, n); m_Pos = 0; }
     inline void		relink (memlink& l)		{ relink (l.data(), l.writable_size()); }
     inline void		seekp (off_t p, seekdir d = beg);
     inline off_t	tellp (void) const		{ return (pos()); }
 protected:
     inline void		SetPos (uoff_t newPos)		{ m_Pos = newPos; }
 private:
     uoff_t		m_Pos;	///< Current write position.
 };

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

 /// \class ostream_iterator mostream.h ustl.h
 /// \ingroup BinaryStreamIterators
 ///
 /// \brief An iterator over an ostream to use with uSTL algorithms.
 ///
 template <typename T, typename Stream = ostream>
 class ostream_iterator {
 public:
     typedef T			value_type;
     typedef ptrdiff_t		difference_type;
     typedef value_type*		pointer;
     typedef value_type&		reference;
     typedef ostream::size_type	size_type;
 public:
     inline explicit		ostream_iterator (Stream& os)
 				    : m_Os (os) {}
     inline			ostream_iterator (const ostream_iterator& iter)
 				    : m_Os (iter.m_Os) {}
     /// Writes \p v into the stream.
     inline ostream_iterator&	operator= (const T& v)
 				    { m_Os << v; return (*this); }
     inline ostream_iterator&	operator* (void) { return (*this); }
     inline ostream_iterator&	operator++ (void) { return (*this); }
     inline ostream_iterator	operator++ (int) { return (*this); }
     inline ostream_iterator&	operator+= (size_type n) { m_Os.skip (n); return (*this); }
     inline bool			operator== (const ostream_iterator& i) const
 				    { return (m_Os.pos() == i.m_Os.pos()); }
     inline bool			operator< (const ostream_iterator& i) const
 				    { return (m_Os.pos() < i.m_Os.pos()); }
 private:
     Stream&	m_Os;
 };

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

 typedef ostream_iterator<utf8subchar_t> ostream_iterator_for_utf8;
 typedef utf8out_iterator<ostream_iterator_for_utf8> utf8ostream_iterator;

 /// Returns a UTF-8 adaptor writing to \p os.
 inline utf8ostream_iterator utf8out (ostream& os)
 {
     ostream_iterator_for_utf8 si (os);
     return (utf8ostream_iterator (si));
 }

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

 /// Move the write pointer to \p newPos
 inline void ostream::seek (uoff_t newPos)
 {
 #ifdef WANT_STREAM_BOUNDS_CHECKING
     if (newPos > size())
 	throw stream_bounds_exception ("seekp", "byte", pos(), newPos - pos(), size());
 #else
     assert (newPos <= size());
 #endif
     SetPos (newPos);
 }

 /// Sets the current write position to \p newPos
 inline void ostream::iseek (const_iterator newPos)
 {
     seek (distance (begin(), const_cast<iterator>(newPos)));
 }

 /// Sets the current write position to \p p based on \p d.
 inline void ostream::seekp (off_t p, seekdir d)
 {
     switch (d) {
 	case beg:	seek (p); break;
 	case cur:	seek (pos() + p); break;
 	case ios_base::end:	seek (size() - p); break;
     }
 }

 /// Skips \p nBytes without writing anything.
 inline void ostream::skip (size_type nBytes)
 {
     seek (pos() + nBytes);
 }

 /// Returns number of bytes remaining in the write buffer.
 inline ostream::size_type ostream::remaining (void) const
 {
     return (size() - pos());
 }

 /// Returns \c true if the write pointer is aligned on \p grain
 inline bool ostream::aligned (size_type grain) const
 {
     assert (uintptr_t(begin()) % grain == 0 && "Streams should be attached aligned at the maximum element grain to avoid bus errors.");
     return (pos() % grain == 0);
 }

 /// Returns the number of bytes to skip to be aligned on \p grain.
 inline ostream::size_type ostream::align_size (size_type grain) const
 {
     return (Align (pos(), grain) - pos());
 }

 /// Writes the contents of \p buf into the stream as a raw dump.
 inline void ostream::write (const cmemlink& buf)
 {
     write (buf.begin(), buf.size());
 }

 /// Writes type T into the stream via a direct pointer cast.
 template <typename T>
 inline void ostream::iwrite (const T& v)
 {
     assert (aligned (alignof (v)));
 #ifdef WANT_STREAM_BOUNDS_CHECKING
     verify_remaining ("write", typeid(v).name(), sizeof(T));
 #else
     assert (remaining() >= sizeof(T));
 #endif
     *reinterpret_cast<T*>(ipos()) = v;
     SetPos (pos() + sizeof(T));
 }

 #define OSTREAM_OPERATOR(type)	\
 inline ostream&	operator<< (ostream& os, type v)	{ os.iwrite(v); return (os); }

 template <typename T>
 OSTREAM_OPERATOR(T*)
 OSTREAM_OPERATOR(int8_t)
 OSTREAM_OPERATOR(uint8_t)
 OSTREAM_OPERATOR(int16_t)
 OSTREAM_OPERATOR(uint16_t)
 OSTREAM_OPERATOR(int32_t)
 OSTREAM_OPERATOR(uint32_t)
 OSTREAM_OPERATOR(float)
 OSTREAM_OPERATOR(double)
 OSTREAM_OPERATOR(wchar_t)
 #if SIZE_OF_BOOL == SIZE_OF_CHAR
 OSTREAM_OPERATOR(bool)
 #else
 inline ostream&	operator<< (ostream& os, bool v)
 { os.iwrite (uint8_t(v)); return (os); }
 #endif
 #if HAVE_THREE_CHAR_TYPES
 OSTREAM_OPERATOR(char)
 #endif
 #if HAVE_INT64_T
 OSTREAM_OPERATOR(int64_t)
 OSTREAM_OPERATOR(uint64_t)
 #endif
 #if SIZE_OF_LONG == SIZE_OF_INT
 OSTREAM_OPERATOR(long)
 OSTREAM_OPERATOR(unsigned long)
 #endif
 #if HAVE_LONG_LONG && (!HAVE_INT64_T || SIZE_OF_LONG_LONG > 8)
 OSTREAM_OPERATOR(long long)
 OSTREAM_OPERATOR(unsigned long long)
 #endif

 } // 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.
	//
	// mostream.h

	#ifndef MOSTREAM_H_24A8C5397E0848216573E5670930FC9A
	#define MOSTREAM_H_24A8C5397E0848216573E5670930FC9A

	#include "memlink.h"
	#include "uassert.h"
	#include "uexception.h"
	#include "utf8.h"
	#include "uios.h"
	#include <typeinfo>

	namespace ustl {

	class istream;
	class string;

	/// \class ostream mostream.h ustl.h
	/// \ingroup BinaryStreams
	///
	/// \brief Helper class to write packed binary streams.
	///
	/// This class contains a set of functions to write integral types into an
	/// unstructured memory block. Packing binary file data can be done this
	/// way, for instance. aligning the data is your responsibility, and can
	/// be accomplished by proper ordering of writes and by calling \ref ostream::align.
	/// Unaligned access is usually slower by orders of magnitude and,
	/// on some architectures, such as PowerPC, can cause your program to crash.
	/// Therefore, all write functions have asserts to check alignment.
	/// See \ref istream documentation for rules on designing your data format.
	/// Overwriting the end of the stream will also cause a crash (an assert in
	/// debug builds). Oh, and don't be intimidated by the size of the inlines
	/// here. In the assembly code the compiler will usually chop everything down
	/// to five instructions each.
	///
	/// Example code:
	/// \code
	/// memblock b;
	/// ostream os (b);
	/// os << boolVar << ios::talign<int>();
	/// os << intVar << floatVar;
	/// os.write (binaryData, binaryDataSize);
	/// os.align();
	/// b.resize (os.pos());
	/// b.write_file ("test.file");
	/// \endcode
	///
	class ostream : public memlink, public ios_base {
	public:
	ostream (void);
	ostream (void* p, size_type n);
	explicit ostream (const memlink& source);
	inline iterator end (void) { return (memlink::end()); }
	inline const_iterator end (void) const { return (memlink::end()); }
	inline void seek (uoff_t newPos);
	inline void iseek (const_iterator newPos);
	inline void skip (size_type nBytes);
	inline uoff_t pos (void) const { return (m_Pos); }
	inline iterator ipos (void) { return (begin() + pos()); }
	inline const_iterator ipos (void) const { return (begin() + pos()); }
	inline size_type remaining (void) const;
	inline bool aligned (size_type grain = c_DefaultAlignment) const;
	void verify_remaining (const char* op, const char* type, size_t n) const;
	inline size_type align_size (size_type grain = c_DefaultAlignment) const;
	void align (size_type grain = c_DefaultAlignment);
	void write (const void* buffer, size_type size);
	inline void write (const cmemlink& buf);
	void write_strz (const char* str);
	void read (istream& is);
	inline void write (ostream& os) const { os.write (begin(), pos()); }
	void text_write (ostringstream& os) const;
	inline size_t stream_size (void) const { return (pos()); }
	void insert (iterator start, size_type size);
	void erase (iterator start, size_type size);
	void swap (ostream& os);
	template <typename T>
	inline void iwrite (const T& v);
	inline virtual size_type overflow (size_type = 1){ return (remaining()); }
	virtual void unlink (void);
	inline void link (void* p, size_type n) { memlink::link (p, n); }
	inline void link (memlink& l) { memlink::link (l.data(), l.writable_size()); }
	inline void link (void* f, void* l) { memlink::link (f, l); }
	OVERLOAD_POINTER_AND_SIZE_T_V2(link, void*)
	inline void relink (void* p, size_type n) { memlink::relink (p, n); m_Pos = 0; }
	inline void relink (memlink& l) { relink (l.data(), l.writable_size()); }
	inline void seekp (off_t p, seekdir d = beg);
	inline off_t tellp (void) const { return (pos()); }
	protected:
	inline void SetPos (uoff_t newPos) { m_Pos = newPos; }
	private:
	uoff_t m_Pos; ///< Current write position.
	};

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

	/// \class ostream_iterator mostream.h ustl.h
	/// \ingroup BinaryStreamIterators
	///
	/// \brief An iterator over an ostream to use with uSTL algorithms.
	///
	template <typename T, typename Stream = ostream>
	class ostream_iterator {
	public:
	typedef T value_type;
	typedef ptrdiff_t difference_type;
	typedef value_type* pointer;
	typedef value_type& reference;
	typedef ostream::size_type size_type;
	public:
	inline explicit ostream_iterator (Stream& os)
	: m_Os (os) {}
	inline ostream_iterator (const ostream_iterator& iter)
	: m_Os (iter.m_Os) {}
	/// Writes \p v into the stream.
	inline ostream_iterator& operator= (const T& v)
	{ m_Os << v; return (*this); }
	inline ostream_iterator& operator* (void) { return (*this); }
	inline ostream_iterator& operator++ (void) { return (*this); }
	inline ostream_iterator operator++ (int) { return (*this); }
	inline ostream_iterator& operator+= (size_type n) { m_Os.skip (n); return (*this); }
	inline bool operator== (const ostream_iterator& i) const
	{ return (m_Os.pos() == i.m_Os.pos()); }
	inline bool operator< (const ostream_iterator& i) const
	{ return (m_Os.pos() < i.m_Os.pos()); }
	private:
	Stream& m_Os;
	};

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

	typedef ostream_iterator<utf8subchar_t> ostream_iterator_for_utf8;
	typedef utf8out_iterator<ostream_iterator_for_utf8> utf8ostream_iterator;

	/// Returns a UTF-8 adaptor writing to \p os.
	inline utf8ostream_iterator utf8out (ostream& os)
	{
	ostream_iterator_for_utf8 si (os);
	return (utf8ostream_iterator (si));
	}

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

	/// Move the write pointer to \p newPos
	inline void ostream::seek (uoff_t newPos)
	{
	#ifdef WANT_STREAM_BOUNDS_CHECKING
	if (newPos > size())
	throw stream_bounds_exception ("seekp", "byte", pos(), newPos - pos(), size());
	#else
	assert (newPos <= size());
	#endif
	SetPos (newPos);
	}

	/// Sets the current write position to \p newPos
	inline void ostream::iseek (const_iterator newPos)
	{
	seek (distance (begin(), const_cast<iterator>(newPos)));
	}

	/// Sets the current write position to \p p based on \p d.
	inline void ostream::seekp (off_t p, seekdir d)
	{
	switch (d) {
	case beg: seek (p); break;
	case cur: seek (pos() + p); break;
	case ios_base::end: seek (size() - p); break;
	}
	}

	/// Skips \p nBytes without writing anything.
	inline void ostream::skip (size_type nBytes)
	{
	seek (pos() + nBytes);
	}

	/// Returns number of bytes remaining in the write buffer.
	inline ostream::size_type ostream::remaining (void) const
	{
	return (size() - pos());
	}

	/// Returns \c true if the write pointer is aligned on \p grain
	inline bool ostream::aligned (size_type grain) const
	{
	assert (uintptr_t(begin()) % grain == 0 && "Streams should be attached aligned at the maximum element grain to avoid bus errors.");
	return (pos() % grain == 0);
	}

	/// Returns the number of bytes to skip to be aligned on \p grain.
	inline ostream::size_type ostream::align_size (size_type grain) const
	{
	return (Align (pos(), grain) - pos());
	}

	/// Writes the contents of \p buf into the stream as a raw dump.
	inline void ostream::write (const cmemlink& buf)
	{
	write (buf.begin(), buf.size());
	}

	/// Writes type T into the stream via a direct pointer cast.
	template <typename T>
	inline void ostream::iwrite (const T& v)
	{
	assert (aligned (alignof (v)));
	#ifdef WANT_STREAM_BOUNDS_CHECKING
	verify_remaining ("write", typeid(v).name(), sizeof(T));
	#else
	assert (remaining() >= sizeof(T));
	#endif
	reinterpret_cast<T>(ipos()) = v;
	SetPos (pos() + sizeof(T));
	}

	#define OSTREAM_OPERATOR(type) \
	inline ostream& operator<< (ostream& os, type v) { os.iwrite(v); return (os); }

	template <typename T>
	OSTREAM_OPERATOR(T*)
	OSTREAM_OPERATOR(int8_t)
	OSTREAM_OPERATOR(uint8_t)
	OSTREAM_OPERATOR(int16_t)
	OSTREAM_OPERATOR(uint16_t)
	OSTREAM_OPERATOR(int32_t)
	OSTREAM_OPERATOR(uint32_t)
	OSTREAM_OPERATOR(float)
	OSTREAM_OPERATOR(double)
	OSTREAM_OPERATOR(wchar_t)
	#if SIZE_OF_BOOL == SIZE_OF_CHAR
	OSTREAM_OPERATOR(bool)
	#else
	inline ostream& operator<< (ostream& os, bool v)
	{ os.iwrite (uint8_t(v)); return (os); }
	#endif
	#if HAVE_THREE_CHAR_TYPES
	OSTREAM_OPERATOR(char)
	#endif
	#if HAVE_INT64_T
	OSTREAM_OPERATOR(int64_t)
	OSTREAM_OPERATOR(uint64_t)
	#endif
	#if SIZE_OF_LONG == SIZE_OF_INT
	OSTREAM_OPERATOR(long)
	OSTREAM_OPERATOR(unsigned long)
	#endif
	#if HAVE_LONG_LONG && (!HAVE_INT64_T \|\| SIZE_OF_LONG_LONG > 8)
	OSTREAM_OPERATOR(long long)
	OSTREAM_OPERATOR(unsigned long long)
	#endif

	} // namespace ustl

	#endif