media/libdrm/mobile2/src/util/ustl-1.0/memblock.cpp - 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.
 //
 // memblock.cc
 //
 //	Allocated memory block.
 //

 #include "fstream.h"
 #include "mistream.h"
 #include "memblock.h"
 #include "ualgo.h"
 #include "uassert.h"
 #include "umemory.h"

 #include <errno.h>

 namespace ustl {

 /// Allocates 0 bytes for the internal block.
 memblock::memblock (void)
 : memlink (),
   m_Capacity (0)
 {
 }

 /// Allocates \p n bytes for the internal block.
 memblock::memblock (size_type n)
 : memlink (),
   m_Capacity (0)
 {
     resize (n);
 }

 /// links to \p p, \p n. Data can not be modified and will not be freed.
 memblock::memblock (const void* p, size_type n)
 : memlink (),
   m_Capacity (0)
 {
     assign (p, n);
 }

 /// Links to what \p b is linked to.
 memblock::memblock (const cmemlink& b)
 : memlink (),
   m_Capacity (0)
 {
     assign (b);
 }

 /// Links to what \p b is linked to.
 memblock::memblock (const memlink& b)
 : memlink (),
   m_Capacity (0)
 {
     assign (b);
 }

 /// Links to what \p b is linked to.
 memblock::memblock (const memblock& b)
 : memlink (),
   m_Capacity (0)
 {
     assign (b);
 }

 /// Frees internal data, if appropriate
 /// Only if the block was allocated using resize, or linked to using Manage,
 /// will it be freed. Also, Derived classes should call DestructBlock from
 /// their destructor, because upstream virtual functions are unavailable at
 /// this point and will not be called automatically.
 ///
 memblock::~memblock (void)
 {
     if (!is_linked())
 	deallocate();
 }

 /// resizes the block to \p newSize bytes, reallocating if necessary.
 void memblock::resize (size_type newSize, bool bExact)
 {
     if (m_Capacity < newSize + minimumFreeCapacity())
 	reserve (newSize, bExact);
     memlink::resize (newSize);
 }

 /// Frees internal data.
 void memblock::deallocate (void) throw()
 {
     if (m_Capacity) {
 	assert (cdata() && "Internal error: space allocated, but the pointer is NULL");
 	assert (data() && "Internal error: read-only block is marked as allocated space");
 	free (data());
     }
     unlink();
 }

 /// Assumes control of the memory block \p p of size \p n.
 /// The block assigned using this function will be freed in the destructor.
 void memblock::manage (void* p, size_type n)
 {
     assert (p || !n);
     assert (!m_Capacity && "Already managing something. deallocate or unlink first.");
     link (p, n);
     m_Capacity = n;
 }

 /// "Instantiate" a linked block by allocating and copying the linked data.
 void memblock::copy_link (void)
 {
     const cmemlink l (*this);
     if (is_linked())
 	unlink();
     assign (l);
 }

 /// Copies data from \p p, \p n.
 void memblock::assign (const void* p, size_type n)
 {
     assert ((p != (const void*) cdata() || size() == n) && "Self-assignment can not resize");
     resize (n);
     copy (p, n);
 }

 /// \brief Reallocates internal block to hold at least \p newSize bytes.
 ///
 /// Additional memory may be allocated, but for efficiency it is a very
 /// good idea to call reserve before doing byte-by-byte edit operations.
 /// The block size as returned by size() is not altered. reserve will not
 /// reduce allocated memory. If you think you are wasting space, call
 /// deallocate and start over. To avoid wasting space, use the block for
 /// only one purpose, and try to get that purpose to use similar amounts
 /// of memory on each iteration.
 ///
 void memblock::reserve (size_type newSize, bool bExact)
 {
     if ((newSize += minimumFreeCapacity()) <= m_Capacity)
 	return;
     void* oldBlock (is_linked() ? NULL : data());
     if (!bExact)
 	newSize = Align (newSize, c_PageSize);
     pointer newBlock = (pointer) realloc (oldBlock, newSize);
     if (!newBlock)
 #if PLATFORM_ANDROID
         printf("bad_alloc\n");
 #else
 	throw bad_alloc (newSize);
 #endif
     if (!oldBlock && cdata())
 	copy_n (cdata(), min (size() + 1, newSize), newBlock);
     link (newBlock, size());
     m_Capacity = newSize;
 }

 /// Swaps the contents with \p l
 void memblock::swap (memblock& l)
 {
     memlink::swap (l);
     ::ustl::swap (m_Capacity, l.m_Capacity);
 }

 /// Shifts the data in the linked block from \p start to \p start + \p n.
 memblock::iterator memblock::insert (iterator start, size_type n)
 {
     const uoff_t ip = start - begin();
     assert (ip <= size());
     resize (size() + n, false);
     memlink::insert (iat(ip), n);
     return (iat (ip));
 }

 /// Shifts the data in the linked block from \p start + \p n to \p start.
 memblock::iterator memblock::erase (iterator start, size_type n)
 {
     const uoff_t ep = start - begin();
     assert (ep + n <= size());
     memlink::erase (start, n);
     memlink::resize (size() - n);
     return (iat (ep));
 }

 /// Unlinks object.
 void memblock::unlink (void)
 {
     memlink::unlink();
     m_Capacity = 0;
 }

 /// Reads the object from stream \p s
 void memblock::read (istream& is)
 {
     written_size_type n;
     is >> n;
     is.verify_remaining ("read", "ustl::memblock", n);
     resize (n);
     is.read (data(), writable_size());
     is.align (alignof (n));
 }

 /// Reads the entire file \p "filename".
 void memblock::read_file (const char* filename)
 {
     fstream f;
     f.exceptions (fstream::allbadbits);
     f.open (filename, fstream::in);
     const off_t fsize (f.size());
     reserve (fsize);
     f.read (data(), fsize);
     f.close();
     resize (fsize);
 }

 } // namespace ustl
	// 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.
	//
	// memblock.cc
	//
	// Allocated memory block.
	//

	#include "fstream.h"
	#include "mistream.h"
	#include "memblock.h"
	#include "ualgo.h"
	#include "uassert.h"
	#include "umemory.h"

	#include <errno.h>

	namespace ustl {

	/// Allocates 0 bytes for the internal block.
	memblock::memblock (void)
	: memlink (),
	m_Capacity (0)
	{
	}

	/// Allocates \p n bytes for the internal block.
	memblock::memblock (size_type n)
	: memlink (),
	m_Capacity (0)
	{
	resize (n);
	}

	/// links to \p p, \p n. Data can not be modified and will not be freed.
	memblock::memblock (const void* p, size_type n)
	: memlink (),
	m_Capacity (0)
	{
	assign (p, n);
	}

	/// Links to what \p b is linked to.
	memblock::memblock (const cmemlink& b)
	: memlink (),
	m_Capacity (0)
	{
	assign (b);
	}

	/// Links to what \p b is linked to.
	memblock::memblock (const memlink& b)
	: memlink (),
	m_Capacity (0)
	{
	assign (b);
	}

	/// Links to what \p b is linked to.
	memblock::memblock (const memblock& b)
	: memlink (),
	m_Capacity (0)
	{
	assign (b);
	}

	/// Frees internal data, if appropriate
	/// Only if the block was allocated using resize, or linked to using Manage,
	/// will it be freed. Also, Derived classes should call DestructBlock from
	/// their destructor, because upstream virtual functions are unavailable at
	/// this point and will not be called automatically.
	///
	memblock::~memblock (void)
	{
	if (!is_linked())
	deallocate();
	}

	/// resizes the block to \p newSize bytes, reallocating if necessary.
	void memblock::resize (size_type newSize, bool bExact)
	{
	if (m_Capacity < newSize + minimumFreeCapacity())
	reserve (newSize, bExact);
	memlink::resize (newSize);
	}

	/// Frees internal data.
	void memblock::deallocate (void) throw()
	{
	if (m_Capacity) {
	assert (cdata() && "Internal error: space allocated, but the pointer is NULL");
	assert (data() && "Internal error: read-only block is marked as allocated space");
	free (data());
	}
	unlink();
	}

	/// Assumes control of the memory block \p p of size \p n.
	/// The block assigned using this function will be freed in the destructor.
	void memblock::manage (void* p, size_type n)
	{
	assert (p \|\| !n);
	assert (!m_Capacity && "Already managing something. deallocate or unlink first.");
	link (p, n);
	m_Capacity = n;
	}

	/// "Instantiate" a linked block by allocating and copying the linked data.
	void memblock::copy_link (void)
	{
	const cmemlink l (*this);
	if (is_linked())
	unlink();
	assign (l);
	}

	/// Copies data from \p p, \p n.
	void memblock::assign (const void* p, size_type n)
	{
	assert ((p != (const void*) cdata() \|\| size() == n) && "Self-assignment can not resize");
	resize (n);
	copy (p, n);
	}

	/// \brief Reallocates internal block to hold at least \p newSize bytes.
	///
	/// Additional memory may be allocated, but for efficiency it is a very
	/// good idea to call reserve before doing byte-by-byte edit operations.
	/// The block size as returned by size() is not altered. reserve will not
	/// reduce allocated memory. If you think you are wasting space, call
	/// deallocate and start over. To avoid wasting space, use the block for
	/// only one purpose, and try to get that purpose to use similar amounts
	/// of memory on each iteration.
	///
	void memblock::reserve (size_type newSize, bool bExact)
	{
	if ((newSize += minimumFreeCapacity()) <= m_Capacity)
	return;
	void* oldBlock (is_linked() ? NULL : data());
	if (!bExact)
	newSize = Align (newSize, c_PageSize);
	pointer newBlock = (pointer) realloc (oldBlock, newSize);
	if (!newBlock)
	#if PLATFORM_ANDROID
	printf("bad_alloc\n");
	#else
	throw bad_alloc (newSize);
	#endif
	if (!oldBlock && cdata())
	copy_n (cdata(), min (size() + 1, newSize), newBlock);
	link (newBlock, size());
	m_Capacity = newSize;
	}

	/// Swaps the contents with \p l
	void memblock::swap (memblock& l)
	{
	memlink::swap (l);
	::ustl::swap (m_Capacity, l.m_Capacity);
	}

	/// Shifts the data in the linked block from \p start to \p start + \p n.
	memblock::iterator memblock::insert (iterator start, size_type n)
	{
	const uoff_t ip = start - begin();
	assert (ip <= size());
	resize (size() + n, false);
	memlink::insert (iat(ip), n);
	return (iat (ip));
	}

	/// Shifts the data in the linked block from \p start + \p n to \p start.
	memblock::iterator memblock::erase (iterator start, size_type n)
	{
	const uoff_t ep = start - begin();
	assert (ep + n <= size());
	memlink::erase (start, n);
	memlink::resize (size() - n);
	return (iat (ep));
	}

	/// Unlinks object.
	void memblock::unlink (void)
	{
	memlink::unlink();
	m_Capacity = 0;
	}

	/// Reads the object from stream \p s
	void memblock::read (istream& is)
	{
	written_size_type n;
	is >> n;
	is.verify_remaining ("read", "ustl::memblock", n);
	resize (n);
	is.read (data(), writable_size());
	is.align (alignof (n));
	}

	/// Reads the entire file \p "filename".
	void memblock::read_file (const char* filename)
	{
	fstream f;
	f.exceptions (fstream::allbadbits);
	f.open (filename, fstream::in);
	const off_t fsize (f.size());
	reserve (fsize);
	f.read (data(), fsize);
	f.close();
	resize (fsize);
	}

	} // namespace ustl